A stage spray sound and light integrated interactive device

By designing an integrated interactive device for spraying, sound, and light on the stage, and utilizing sensor and voice recognition technology to achieve automatic interaction between lights, sprays, and dynamic sculptures, the shortcomings of manual control in existing technologies are solved, and the interactivity and flexibility of stage effects are enhanced.

CN116139510BActive Publication Date: 2026-07-10TONGLING XINJIUDING COPPER CULTURE IND

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
TONGLING XINJIUDING COPPER CULTURE IND
Filing Date
2023-03-17
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

Existing stage lighting, misting machines, and kinetic sculptures require manual operation to achieve interactivity, resulting in inconvenience in interactive operation.

Method used

Design a stage spray sound and light integrated interactive device, including a control base, a drive base, a lighting base and a sprayer. It realizes automatic interaction between lights, spray and dynamic sculptures through sensors and voice recognition technology. The sensors can adjust the position and illumination angle of the lights, and the dynamic sculptures can be quickly replaced.

Benefits of technology

It enables automatic interaction of lighting, spraying, and dynamic sculptures, improving the interactivity and flexibility of stage effects and simplifying the operation process.

✦ Generated by Eureka AI based on patent content.

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    Figure CN116139510B_ABST
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Abstract

The application discloses a stage spray acousto-optic integrated interactive device, and relates to the technical field of stage props, which comprises a control base, the bottom of the control base is connected with a driving base, the top of the control base is connected with a light base, the driving base is provided with a bearing shaft, four independent rotating rings are arranged on the bearing shaft, each independent rotating ring is provided with a connecting frame, the light base is provided with a sliding rail, the connecting frame is connected with a light mounting seat, the light mounting seat is provided with a rotating shaft motor, the rotating shaft motor is provided with a light frame, the light frame is connected with a stage lamp, the light base is provided with a spraying machine, a plurality of sensors are arranged around the light base, the light base is provided with a mounting seat, and the mounting seat is detachably provided with a dynamic sculpture. The application enhances the stage effect through light, spraying and dynamic sculpture, changes the effect of light and spraying through the form of interaction, and the dynamic sculpture is convenient to replace. The position and irradiation angle of light can be regulated and controlled, the principle of the sensor is simple and convenient to adjust, and the application is suitable for promotion.
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Description

Technical Field

[0001] This invention belongs to the field of stage props technology, specifically relating to a stage spray sound and light integrated interactive device. Background Technology

[0002] In addition to existing stage props, more lighting, misting, and kinetic sculptures are added to enhance the stage effect. Stage lighting is an important component of the performance space. It involves the comprehensive visual design of the stage lighting environment for characters and specific scenes according to the development of the plot, and the artistic creation of purposefully reproducing the design intent to the audience in a visual form. Mist is produced by misting machines. The new misting system not only overcomes the shortcomings of traditional misting machines, but can also be used multiple times, and the mist volume, spray time, and duration can be controlled at will. Kinetic sculptures are a new type of sculpture that can move on its own as a background. In the existing stage lighting and misting machines, the direction and color of the light and the mist volume, spray time, and duration of the misting machine can be programmed through a control panel. However, for them to interact with the audience, manual operation of the control panel is required, which is not convenient for interactive operation.

[0003] Therefore, this invention proposes a stage-use spray sound and light integrated interactive device that enhances stage effects through lighting, spraying, and dynamic sculptures, and changes the effects of lighting and spraying through interactive means. The dynamic sculptures are easy to replace, the position and illumination angle of the lights can be adjusted, and the sensor principle is simple and easy to adjust. Summary of the Invention

[0004] The purpose of this invention is to provide a stage spray sound and light integrated interactive device that enhances stage effects through lighting, spraying, and dynamic sculptures. The effects of lighting and spraying can be changed through interaction. The dynamic sculptures are easy to replace, the position and illumination angle of the lights can be adjusted, and the sensor principle is simple and easy to adjust, making it suitable for widespread application.

[0005] This invention provides the following technical solution: a stage spray sound and light integrated interactive device, including a control base, a drive base, a lighting base, and a mounting base. The bottom of the control base is fixedly connected to the drive base, and the bottom of the drive base is provided with rollers. The top of the control base is fixedly connected to the lighting base. The drive base is provided with a load-bearing shaft penetrating into the lighting base. The load-bearing shaft is provided with four independent rotating rings, and each independent rotating ring is fixedly provided with a connecting frame. The lighting base is provided with a sliding rail corresponding to the connecting frame. The connecting frame passes through the sliding rail and is fixedly connected to a lighting mounting base. The lighting mounting base is fixedly provided with a rotating shaft motor. The output end of the rotating shaft motor is fixedly provided with a lighting frame. The top two inner sides of the lighting frame are connected to stage lights through rotating shafts. The lighting frame is fixedly provided with a motor at the rotating shaft. Symmetrical sprayers are fixedly provided above the lighting base. Multiple sensors are evenly arranged around the upper surface of the lighting base. A mounting base is fixedly provided at the center of the upper end of the lighting base. The mounting base is detachably provided with a dynamic sculpture.

[0006] Preferably, the mounting base has fixed seats on both sides of its top end. The mounting base has an upward-opening mounting groove, a fixing groove above the mounting groove, a cross-shaped groove at the bottom of the fixing groove, a through sliding groove in the fixing seat, a connecting slider slidingly within the sliding groove, a handle fixedly attached to one end of the connecting slider on the outside of the fixing base, a recessed groove connected to the sliding groove on the inner wall of the fixing groove, spring grooves on both sides of the fixing base on the connecting slider, spring blocks fixedly attached to the connecting slider within the spring grooves, compression springs fixedly attached to the spring blocks, a fixing retaining ring fixedly attached to one side of the connecting slider within the fixing groove, the fixing retaining ring slidingly connected to the recessed groove, a pushing inclined surface on the fixing retaining ring, and a base plate fixedly attached to the bottom of the dynamic sculpture. The shape of the base plate matches the mounting groove, and it has a retaining ring spatially engaged between the fixing retaining ring and the bottom surface of the recessed groove.

[0007] Preferably, the sensor is equipped with an image recognition function, and the sensor is fixedly connected to the upper surface of the light base via a universal joint, with the universal joint's shaft connection being tightly secured.

[0008] Preferably, an air inlet is fixedly provided on the top of the sprayer, and the spray nozzle of the sprayer extends to the upper end of the sprayer through a spray pipe.

[0009] Preferably, track walls are fixedly provided on the upper and lower sides of the sliding track, the track walls protruding from the side of the light base, and the light mounting base is fixedly provided with a clamping groove at the track wall, the clamping groove being slidably connected to the track wall.

[0010] Preferably, receiving holes are fixedly provided on both sides of the control base, and a voice processing module is fixedly provided in the control base at the receiving holes. The control base is provided with a central processing unit, an intelligent module, and a control module. The control base is provided with a drive module that drives an independent rotating ring. The central processing unit is connected to the voice processing module and the control module. The control module is connected to the drive base, the sprayer, and the control module. The central processing unit is connected to an external control panel through a signal line. The external control panel is used to set the light movement status and sensor information processing. The sensor interacts by obstructing the output surface.

[0011] The beneficial effects of this invention are as follows: It enhances stage effects through lighting, misting, and dynamic sculptures; it allows for interactive changes to the effects of lighting and misting; the dynamic sculptures are easy to replace; the position and angle of the lights can be adjusted; and the sensor principle is simple and easy to adjust. Details are as follows:

[0012] (1) The present invention is equipped with a drive base, and the control base, stage lights, sprayer and dynamic sculpture are all installed on the drive base. The drive base moves on the stage, and the stage lights rotate around the light base, so that they can switch to different illumination states to enhance the stage effect.

[0013] (2) The present invention is provided with a mounting base, through which dynamic sculptures are installed. Dynamic sculptures can be designed in different shapes, and all of them have the same base plate. During installation, the bottom of the base plate is inserted into the mounting groove, and the bottom of the base plate contacts the bottom of the mounting groove. The middle section of the base plate contacts the bottom of the fixing groove and is inserted into the cross groove. When the base plate is inserted, the middle section contacts the pushing slope of the fixing ring. Under the action of gravity, the fixing ring is pushed towards the retracting groove through the pushing slope, so that the middle section of the base plate can pass through the fixing ring. After it passes through, the fixing ring is reset under the push of the compression spring, so that it is locked at the upper end of the middle section of the base plate, thereby fixing the base plate. The cross groove prevents the base plate from rotating, thereby completing the quick installation. When it is necessary to disassemble, pull the handles on both sides to drive the fixing ring away from the base plate, thereby releasing the base plate for quick disassembly, which is convenient for replacing dynamic sculptures and creating different stage effects.

[0014] (3) The present invention is provided with a light base. When the light base is in operation, each independent rotating ring can rotate independently. Driven by the independent rotating ring, the stage light can rotate around the light base. The stage light can face in all directions or be directed at the dynamic sculpture. The four stage lights can be dispersed or brought together to enhance the stage effect.

[0015] (4) The present invention is equipped with a control base, which allows for stage interaction with personnel. The position of the sensor is adjusted according to the different dynamic sculptures so that its output end faces different directions. The control base is programmed through the console to write several sets of motion processes for the stage lights and sprayers. The control base can control the stage lights, sprayers and drive base differently based on the obstruction of the sensor output end by the dynamic sculpture or the obstruction of the sensor output end by personnel. Different motion processes can be operated. Commands can also be issued by voice to enable the intelligent voice recognition inside the control base to control the stage spraying sound and light integrated interactive operation. Attached Figure Description

[0016] The accompanying drawings are provided to further illustrate the invention and form part of the specification. They are used in conjunction with embodiments of the invention to explain the invention and do not constitute a limitation thereof. In the drawings:

[0017] Figure 1 This is an overall schematic diagram of the present invention;

[0018] Figure 2 This is a schematic diagram of the top structure of the present invention;

[0019] Figure 3 This is a schematic diagram of the internal structure of the light base of the present invention;

[0020] Figure 4 This is a cross-sectional view of the sliding track in this invention;

[0021] Figure 5 This is a schematic diagram of the mounting base structure in this invention.

[0022] The components in the diagram are labeled as follows: 1. Control base, 2. Drive base, 3. Roller, 4. Receiver hole, 5. Lighting base, 6. Sliding track, 7. Lighting mounting base, 8. Rotary shaft motor, 9. Lighting rig, 10. Stage light, 11. Sprayer, 12. Air inlet, 13. Spray pipe, 14. Mounting base, 15. Fixing base, 16. Chassis, 17. Dynamic sculpture, 18. Sensor, 19. Handle, 20. Mounting slot, 21. Fixing slot, 22. Fixing ring, 23. Load-bearing shaft, 24. Independent rotating ring, 25. Connecting frame, 26. Rotary shaft, 27. Clamping groove, 28. Track wall, 29. Cross groove, 30. Recessed groove, 31. Sliding groove, 32. Connecting slider, 33. Spring groove, 34. Spring block, 35. Compression spring, 36. Universal joint, 37. Propulsion ramp. Implementation

[0023] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without creative effort are within the scope of protection of the present invention.

[0024] In the description of this invention, it should be noted that the terms "upper," "lower," "inner," "outer," "top / bottom," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are used only for the convenience of describing the invention and for simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on the invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance.

[0025] In the description of this invention, it should be noted that, unless otherwise explicitly specified and limited, the terms "installed," "equipped with," "sleeved / connected," "connected," etc., should be interpreted broadly. For example, "connection" can be a fixed connection, a detachable connection, or an integral connection; it can be a mechanical connection or an electrical connection; it can be a direct connection or an indirect connection through an intermediate medium; it can be a connection within two components. Those skilled in the art can understand the specific meaning of the above terms in this invention based on the specific circumstances.

[0026] The structural features of the present invention will now be described in detail with reference to the accompanying drawings.

[0027] See Figure 1-3A stage spray sound and light integrated interactive device includes a control base 1, a drive base 2, a lighting base 5, and a mounting base 14. The bottom of the control base 1 is fixedly connected to the drive base 2. The bottom of the drive base 2 is equipped with rollers 3, which drive the entire device to move. The top of the control base 1 is fixedly connected to the lighting base 5. The drive base 2 is provided with a load-bearing shaft 23 that penetrates into the lighting base 5, supporting the upper part of the lighting base 5. The load-bearing shaft 23 is provided with four independent rotating rings 24, and each independent rotating ring 24 is fixedly equipped with a connecting frame 25. The lighting base 5 is provided with a sliding rail 6 corresponding to the connecting frame 25, providing mounting space for the lights. The motion track of the base 7 has a connecting frame 25 that passes through the sliding track 6 and is fixedly connected to the light mounting base 7. The light mounting base 7 is fixedly equipped with a rotating shaft motor 8. The output end of the rotating shaft motor 8 is fixedly equipped with a light frame 9. The top two inner sides of the light frame 9 are connected to the stage lights 10 through the rotating shaft 26. The light frame 9 is fixedly equipped with a motor at the rotating shaft 26, so that the stage lights 10 can face different directions. Symmetrical sprayers 11 are fixedly installed above the light base 5. Multiple sensors 18 are evenly arranged around the upper surface of the light base 5 for human-computer interaction. A mounting base 14 is fixedly installed at the center of the upper end of the light base 5. The mounting base 14 is detachably equipped with a dynamic sculpture 17.

[0028] See Figure 2 , 5 Mounting base 14 has mounting bases 15 fixed on both sides of its top end. Mounting base 14 has an upward-opening mounting groove 20. A fixing groove 21 is provided above the mounting groove 20. The bottom of the fixing groove 21 has a cross-shaped groove 29 to prevent the dynamic sculpture 17 from rotating. The fixing base 15 has a through sliding groove 31. A connecting slider 32 slides in the sliding groove 31. A handle 19 is fixed to one end of the connecting slider 32 on the outside of the fixing base 15. The inner wall of the fixing groove 21 has a recessed groove 30 connected to the sliding groove 31. The recessed groove 30 provides space for the retaining ring 22 to advance. The fixing base 15 has spring grooves 33 on both sides of the connecting slider 32. The connecting slider 32 is located on the spring grooves 33. A spring block 34 is fixedly installed in the groove 33, and a compression spring 35 is fixedly installed in the spring block 34. The compression spring 35 resets the fixing ring 22. The connecting slider 32 is fixedly installed on one side of the fixed groove 21 with a fixing ring 22. The fixing ring 22 is slidably connected to the retraction groove 30. The base 16 is fixed by the fixing ring 22. The fixing ring 22 is provided with a pushing slope 37. When the base 16 is pressed down, the pushing slope 37 pushes the fixing ring 22 into the retraction groove 30. The bottom of the dynamic sculpture 17 is fixedly provided with a base 16. The shape of the base 16 matches the mounting groove 20. It is provided with a locking ring located between the fixing ring 22 and the bottom surface of the retraction groove 30. The base 16 is fixed by the locking ring.

[0029] See Figure 2 The sensor 18 is equipped with an image recognition function. The sensor 18 is fixedly connected to the upper surface of the light base 5 through the universal joint 36. The connection of the universal joint 36 is tight, so that the sensor 18 should not be rotated after the angle adjustment is completed.

[0030] See Figure 1 The top of the sprayer 11 is fixedly provided with an air inlet 12, and the spray nozzle of the sprayer 11 extends to the upper end of the sprayer 11 through the spray pipe 13. The spray direction is adjusted through the spray pipe 13.

[0031] See Figure 4 The upper and lower sides of the sliding track 6 are fixedly provided with track walls 28, which protrude from the side of the light base 5. The light mounting seat 7 is fixedly provided with a clamping groove 27 at the track wall 28. The clamping groove 27 is slidably connected to the track wall 28, so that the light mounting seat 7 remains stable when sliding.

[0032] See Figure 1-3 The control base 1 has receiving holes 4 fixed on both sides. A voice processing module is fixed inside the control base 1 at the receiving holes 4. The control base 1 has a central processing unit, an intelligent module, and a control module. The control base 1 also has a drive module that drives the independent rotating ring 24. The central processing unit is connected to the voice processing module and the control module. The control module is connected to the drive base 2, the sprayer 11, and the control module. The central processing unit is connected to an external control panel via a signal line. The external control panel is used to set the light movement status and process the information of the sensor 18. The sensor 18 interacts when its output surface is blocked. The device is controlled through the control base 1.

[0033] The stage spray sound and light integrated interactive device of the present invention enhances the stage effect through lighting, spray and dynamic sculpture, and changes the effect of lighting and spray through interaction. The dynamic sculpture is easy to replace, the position and illumination angle of the light can be adjusted, and the principle of the sensor is simple and easy to adjust, making it suitable for widespread application.

[0034] For specific usage, please refer to... Figure 1-2 The drive base 2 moves on the stage, and the stage light 10 rotates around the light base 5, allowing it to switch to different illumination states. The dynamic sculpture 17 is installed through the mounting base 14.

[0035] See Figure 2 , 5The dynamic sculpture 17 can be designed in different shapes, all with the same base plate 16. During installation, the bottom of the base plate 16 is inserted into the mounting groove 20, with the bottom of the base plate 16 contacting the bottom of the mounting groove 20. The middle section of the base plate 16 contacts the bottom of the fixing groove 21 and is inserted into the cross groove 29. When the base plate 16 is inserted, its middle section contacts the pushing slope 37 of the fixing ring 22. Under the action of gravity, the pushing slope 37 pushes the fixing ring 22 backward. The chassis 16 is pushed in the direction of groove 30 so that the middle section of the chassis 16 can pass through the retaining ring 22. After it passes through, the retaining ring 22 is reset under the push of the compression spring 35, so that it is locked at the upper end of the middle section of the chassis 16, thereby fixing the chassis 16. The cross groove 29 prevents the chassis 16 from rotating, thus completing the quick installation. When it is necessary to disassemble, pull the handles 19 on both sides to drive the retaining ring 22 to disengage from the chassis 16, thereby releasing the chassis 16 and making quick disassembly possible.

[0036] See Figure 1 , 3 When the lighting base 5 is in operation, each independent rotating ring 24 can rotate independently. Driven by the independent rotating ring 24, the stage light 10 can rotate around the lighting base 5. The stage light 10 can face in all directions or be directed at the dynamic sculpture 17. The four stage lights 10 can be dispersed or brought together.

[0037] See Figure 1-2 The system interacts with the stage by controlling the base 1. The position of the sensor 18 is adjusted according to the different dynamic sculptures 17, so that its output end faces different directions. The control base 1 is programmed through the console to write several sets of movement processes for the stage lights 10 and the sprayer 11. The control base 1 controls the stage lights 10, the sprayer 11 and the drive base 2 differently based on the obstruction of the output end of the sensor 18 by the dynamic sculpture 17 or the obstruction of the output end of the sensor 18 by the personnel, so as to run different movement processes. It can also issue commands by voice to enable the intelligent voice recognition inside the control base 1 to control the stage spray, sound and light integrated interactive operation.

[0038] See Figure 2 When performing human-computer interaction, sensor 18 can be configured as follows:

[0039] Each sensor 18 is assigned a number, such as No. 1, No. 2, No. 3, etc., and the illumination direction of the sensor 18 is adjusted according to the shape and movement state of the dynamic sculpture. When the dynamic sculpture moves or is obstructed by a person, different sensors 18 are programmed in advance through the control panel to respond accordingly when they are obstructed. For example, when an object passes over the illumination of sensor 18, one set of action procedures is initiated. When the object passes over sensors 18 and No. 3 at the same time, another set of action procedures is initiated. Human-computer interaction is carried out by taking examples in this way.

[0040] The above description is merely a preferred embodiment of the present invention and is not intended to limit the present invention. Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the protection scope of the present invention.

Claims

1. A stage spray sound and light integrated interactive device, comprising a control base (1), a drive base (2), a lighting base (5), and a mounting base (14), characterized in that, The bottom of the control base (1) is fixedly connected to the drive base (2). The bottom of the drive base (2) is provided with rollers (3). The top of the control base (1) is fixedly connected to the light base (5). The drive base (2) is provided with a load-bearing shaft (23) that penetrates into the light base (5). The load-bearing shaft (23) is provided with four independent rotating rings (24). Each independent rotating ring (24) is fixedly provided with a connecting frame (25). The light base (5) is provided with a sliding rail (6) corresponding to the connecting frame (25). The connecting frame (25) passes through the sliding rail (6) and is fixedly connected to a light mounting base (7). The light mounting base (7) is fixedly equipped with a rotating shaft motor (8), and the output end of the rotating shaft motor (8) is fixedly equipped with a light frame (9). The top two inner sides of the light frame (9) are connected to a stage light (10) through a rotating shaft (26). The light frame (9) is fixedly equipped with a motor at the rotating shaft (26). A symmetrical sprayer (11) is fixedly equipped above the light base (5). Multiple sensors (18) are evenly arranged around the upper surface of the light base (5). A mounting base (14) is fixedly equipped at the center of the upper end of the light base (5). The mounting base (14) is detachably equipped with a dynamic sculpture (17).

2. The stage spray sound and light integrated interactive device according to claim 1, characterized in that, The mounting base (14) has fixed bases (15) on both sides of its top end. The mounting base (14) has an upward-opening mounting groove (20). A fixing groove (21) is provided above the mounting groove (20). A cross-shaped groove (29) is provided at the bottom of the fixing groove (21). The fixing base (15) has a through sliding groove (31). A connecting slider (32) is slidably provided in the sliding groove (31). A handle (19) is fixedly provided at one end of the connecting slider (32) on the outside of the fixing base (15). The inner wall of the fixing groove (21) is provided with a recessed groove (30) connected to the sliding groove (31). The fixing base (15) is located at the connecting slider (32). The two sides of the ) are provided with spring grooves (33), the connecting slider (32) is located in the spring groove (33) and a spring block (34) is fixedly provided. The spring block (34) is fixedly provided with a compression spring (35). The connecting slider (32) is located in the fixed groove (21) and a fixed retaining ring (22) is fixedly provided on one side. The fixed retaining ring (22) is slidably connected to the retraction groove (30). The fixed retaining ring (22) is provided with a pushing inclined surface (37). The bottom of the dynamic sculpture (17) is fixedly provided with a base plate (16). The shape of the base plate (16) matches the mounting groove (20). It is provided with a retaining ring that is spatially connected between the fixed retaining ring (22) and the bottom surface of the retraction groove (30).

3. The stage spray sound and light integrated interactive device according to claim 1, characterized in that, The sensor (18) is equipped with an image recognition function. The sensor (18) is fixedly connected to the upper surface of the light base (5) through a universal joint (36). The shaft connection of the universal joint (36) is tightly connected.

4. The stage spray sound and light integrated interactive device according to claim 1, characterized in that, The top of the sprayer (11) is fixedly provided with an air inlet (12), and the spray nozzle of the sprayer (11) extends to the upper end of the sprayer (11) through a spray pipe (13).

5. A stage spray sound and light integrated interactive device according to claim 1, characterized in that, The upper and lower sides of the sliding track (6) are fixedly provided with track walls (28), the track walls (28) protrude from the side of the light base (5), and the light mounting base (7) is fixedly provided with a clamping groove (27) at the track wall (28), the clamping groove (27) is slidably connected to the track wall (28).

6. A stage spray sound and light integrated interactive device according to claim 1, characterized in that, The control base (1) is fixedly provided with receiving holes (4) on both sides. The control base (1) is fixedly provided with a voice processing module located at the receiving hole (4). The control base (1) is provided with a central processor, an intelligent module, and a control module. The control base (1) is provided with a drive module for driving an independent rotating ring (24). The central processor is connected to the voice processing module and the control module. The control module is connected to the drive base (2), the sprayer (11), and the control module. The central processor is connected to an external control panel through a signal line. The external control panel is used to set the light movement status and the information processing of the sensor (18). The sensor (18) interacts with the sensor by having its output surface blocked.