WO2022260214A1 - Dispositif d'éclairage sonore - Google Patents

Dispositif d'éclairage sonore Download PDF

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Publication number
WO2022260214A1
WO2022260214A1 PCT/KR2021/011666 KR2021011666W WO2022260214A1 WO 2022260214 A1 WO2022260214 A1 WO 2022260214A1 KR 2021011666 W KR2021011666 W KR 2021011666W WO 2022260214 A1 WO2022260214 A1 WO 2022260214A1
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WO
WIPO (PCT)
Prior art keywords
unit
sound
speaker
housing
lighting
Prior art date
Application number
PCT/KR2021/011666
Other languages
English (en)
Korean (ko)
Inventor
이병주
이윤배
김진호
Original Assignee
주식회사 나팔
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from KR1020210074365A external-priority patent/KR102580118B1/ko
Priority claimed from KR1020210074367A external-priority patent/KR102541035B1/ko
Priority claimed from KR1020210074362A external-priority patent/KR20220165877A/ko
Application filed by 주식회사 나팔 filed Critical 주식회사 나팔
Publication of WO2022260214A1 publication Critical patent/WO2022260214A1/fr

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Classifications

    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47GHOUSEHOLD OR TABLE EQUIPMENT
    • A47G1/00Mirrors; Picture frames or the like, e.g. provided with heating, lighting or ventilating means
    • A47G1/06Picture frames
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V1/00Shades for light sources, i.e. lampshades for table, floor, wall or ceiling lamps
    • F21V1/14Covers for frames; Frameless shades
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V15/00Protecting lighting devices from damage
    • F21V15/01Housings, e.g. material or assembling of housing parts
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V33/00Structural combinations of lighting devices with other articles, not otherwise provided for
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04RLOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
    • H04R1/00Details of transducers, loudspeakers or microphones
    • H04R1/02Casings; Cabinets ; Supports therefor; Mountings therein
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04RLOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
    • H04R7/00Diaphragms for electromechanical transducers; Cones
    • H04R7/02Diaphragms for electromechanical transducers; Cones characterised by the construction
    • H04R7/04Plane diaphragms
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21WINDEXING SCHEME ASSOCIATED WITH SUBCLASSES F21K, F21L, F21S and F21V, RELATING TO USES OR APPLICATIONS OF LIGHTING DEVICES OR SYSTEMS
    • F21W2131/00Use or application of lighting devices or systems not provided for in codes F21W2102/00-F21W2121/00
    • F21W2131/30Lighting for domestic or personal use

Definitions

  • the present invention relates to an acoustic lighting device.
  • lighting devices provide light to users indoors, and are mainly installed on ceilings or walls. These lighting devices are installed in a state protruding from ceilings or walls, or installed in a structure embedded in ceilings or walls.
  • Embodiments of the present invention have been devised to improve the above limitations, provide lighting and sound to the user at the same time, improve user convenience, and provide a stable sound transmission path to improve acoustic characteristics. It is possible to provide an acoustic lighting device capable of
  • an acoustic lighting device capable of improving user convenience by stably providing sound as well as lighting to a user.
  • an acoustic lighting device capable of providing light and sound to a user, improving user convenience, and improving acoustic characteristics.
  • the housing portion is installable lighting unit for generating a light source; a speaker unit installed in the housing unit, disposed outside the lighting unit, and equipped with a sound module for generating sound; and a guide part connected to the speaker part, installed inside the housing part, and providing a transmission path of sound generated from the sound module.
  • the guide portion may be formed in a tubular shape with a hollow inside.
  • a plurality of speaker units are provided and may be disposed on both sides of the lighting unit installed in the housing unit.
  • a speaker cover connected to the housing part and disposed facing the other end opposite to one end of the guide part connected to the speaker part; may be further included.
  • a cover part covering the housing part in which the speaker part and the lighting part are installed may further include.
  • one side is opened, the inside of the housing portion is hollow; a light source unit disposed inside the housing unit and irradiating a light source to the outside; and a speaker unit installed in the housing unit and spaced apart from the light source unit, wherein the speaker unit includes: a speaker housing connected to the housing unit; a sound module installed in the speaker housing and generating sound; A transmission surface connected directly or indirectly to the sound module and transmitting the sound generated by the sound module to the outside provides an acoustic lighting device comprising a.
  • the sound module is connected to the transmission surface, and may generate vibration for sound using at least one driving member.
  • one side of the speaker unit facing the transmission surface may be opened.
  • a shielding part may protrude between the light source part and the speaker part.
  • the speaker unit may be installed in the central portion of the housing unit.
  • a speaker unit in which a sound module generating sound is installed; a lighting unit disposed outside the speaker unit and irradiating a light source to the outside; and a connection unit connecting the lighting unit and the speaker unit.
  • the speaker unit may include a speaker housing disposed outside the sound module and disposed inside the lighting unit.
  • the lighting unit the inside of the hollow and the lighting housing disposed on the outside of the speaker unit; and a lighting body installed inside the lighting housing and generating a light source.
  • a wire unit connected to the speaker unit may further include.
  • the connecting portion is provided with a plurality of pieces, is arranged in an equal angle with respect to a central axis in the longitudinal direction of the speaker portion, and may be connected to the speaker portion.
  • the acoustic lighting device can improve user convenience and easily improve acoustic characteristics.
  • the acoustic lighting device can provide lighting and sound at the same time, so that user convenience can be improved.
  • the acoustic lighting device can improve user convenience and easily improve acoustic characteristics.
  • the transmission surface is directly or indirectly connected to the sound module, and sound generated in the sound module can be effectively transmitted to the outside.
  • the acoustic module since the acoustic module is in contact with and connected to the transmission surface facing the outside, the vibration generated in the diaphragm is transmitted to the vibration of the transmission surface, and the sound generated by such vibration is transmitted to the user through the transmission surface to provide sound such as music and sound. There is an effect that can be communicated effectively.
  • the vibration generated from the sound module is transmitted as it is to the transmission surface, and depending on the material of the transmission surface, various sounds according to the sound range of the sound generated from the sound module can be effectively transmitted to the outside together with lighting. have.
  • the support part stably contacts and supports the sound module, specifically the driving member, vibration generated in the sound module is not transmitted to the housing part, but is directly transmitted to the transmission surface and effectively transmits sound to the outside. .
  • FIG. 1 is a perspective view illustrating an acoustic lighting device according to an embodiment of the present invention.
  • FIG. 2 is a view showing a state in which a housing part and a cover part are separated from each other in a sound lighting device according to an embodiment of the present invention.
  • FIG. 3 is an enlarged view of part A of FIG. 2 .
  • connection unit 4 is a view showing a connection unit according to an embodiment of the present invention.
  • FIG. 5 is a view showing a guide unit according to another embodiment of the present invention.
  • 6 and 7 are diagrams illustrating a guide unit according to other embodiments of the present invention.
  • connection units 8 and 9 are diagrams illustrating connection units according to embodiments of the present invention.
  • FIG. 10 is a perspective view illustrating an acoustic lighting device according to an embodiment of the present invention.
  • FIG. 11 is an exploded perspective view illustrating an acoustic lighting device according to an embodiment of the present invention.
  • FIG. 12 is a cross-sectional view of FIG. 10 based on II-I.
  • FIG. 13 is an enlarged view showing part B of FIG. 12 .
  • FIG. 14 is an enlarged view illustrating part C of FIG. 13 .
  • FIG. 15 is a cross-sectional view of a sound module according to another embodiment of the present invention.
  • 16 to 19 are cross-sectional views illustrating a support unit according to embodiments of the present invention.
  • FIG. 20 is a cross-sectional view of an acoustic lighting device according to another embodiment of the present invention, as shown in FIG. 12 , based on II of FIG. 10 .
  • 21 is an exploded perspective view of a speaker unit according to another embodiment of the present invention.
  • FIG. 22 is a cross-sectional view of an acoustic lighting device according to another embodiment of the present invention, as shown in FIG. 12 , taken along the line II of FIG. 10 .
  • FIG. 23 is a perspective view of a speaker unit according to another embodiment of the present invention.
  • FIG. 24 is a perspective view illustrating an acoustic lighting device according to embodiments of the present invention.
  • 25 is a diagram illustrating a disassembled state of a speaker unit in a sound lighting device according to embodiments of the present invention.
  • 26 is a cross-sectional view of an acoustic lighting device according to an embodiment of the present invention based on line A-A' of FIG. 24 .
  • FIG. 27 is a diagram illustrating a state in which lighting and sound are provided in FIG. 26 .
  • FIG. 28 is a cross-sectional view of an acoustic lighting device according to another embodiment of the present invention based on line A-A' of FIG. 24 .
  • FIG. 29 is a diagram illustrating a state in which lighting and sound are provided in FIG. 28 .
  • FIG. 30 is a cross-sectional view of an acoustic lighting device according to another embodiment of the present invention based on line A-A' of FIG. 24 .
  • FIG. 31 is a diagram illustrating a state in which lighting and sound are provided in FIG. 30 .
  • FIG. 32 is a cross-sectional view of an acoustic lighting device according to another embodiment of the present invention based on line A-A' of FIG. 24 .
  • FIG. 33 is a diagram illustrating a state in which lighting and sound are provided in FIG. 32 .
  • films, regions, components, etc. when it is assumed that films, regions, components, etc. are connected, not only are the films, regions, and components directly connected, but also other films, regions, and components are interposed between the films, regions, and components. This includes cases where it is connected indirectly.
  • a film, region, component, etc. is electrically connected in this specification, not only is the film, region, component, etc. directly electrically connected, but another film, region, component, etc. is interposed therebetween. Including cases of indirect electrical connection.
  • the x-axis, y-axis, and z-axis are not limited to the three axes of the Cartesian coordinate system, and may be interpreted in a broad sense including these.
  • the x-axis, y-axis, and z-axis may be orthogonal to each other, but may refer to different directions that are not orthogonal to each other.
  • FIG. 1 is a perspective view illustrating an acoustic lighting device according to an embodiment of the present invention.
  • 2 is a view showing a state in which a housing part and a cover part are separated from each other in a sound lighting device according to an embodiment of the present invention.
  • FIG. 3 is an enlarged view of part A of FIG. 2 .
  • 4 is a view showing a connection unit according to an embodiment of the present invention.
  • 5 is a view showing a guide unit according to another embodiment of the present invention.
  • 6 and 7 are diagrams illustrating a guide unit according to other embodiments of the present invention.
  • 8 and 9 are diagrams illustrating connection units according to embodiments of the present invention.
  • the acoustic lighting device 1 includes a housing part 1100, a speaker part 1200, a guide part 1300, a speaker cover 1400, a connection part ( 1500), a cover part 1600, a wire part 1700, and a lighting cover 1800.
  • the housing unit 1100 is installed with a lighting unit 110 generating a light source L, a cover unit 1600 to be described later, and a lighting cover. (1800) can be connected.
  • a pair of housing parts 1100 are provided, each connected to both sides of the lighting part 110 and may be spaced apart from each other while facing each other.
  • a speaker unit 1200, a guide unit 1300, and a speaker cover 1400 to be described later may be respectively installed in the pair of housing units 1100.
  • a housing unit 1100 according to an embodiment of the present invention, specifically, a pair of housing units 1100 facing each other are disposed on both sides with the lighting unit 110 interposed therebetween, and are installed independently. There is an effect of generating and transmitting the sound (S) to the outside through the speaker unit 1200.
  • the sound S generated independently from the pair of housing parts 1100 spaced apart from each other by the length of the lighting part 110 is transmitted to the outside, so that a sense of space can be formed.
  • the housing part 1100 has a hollow inside and is formed in an 'a' shape, so that a pair face each other and are spaced apart. It is possible to carry out various modifications, such as being integrally formed within the technical concept of installing the transmission path of the sound (S).
  • one side is connected to the cover part 1600, and the other side (lower side in FIG. 2) opposite thereto is connected. may be connected to the lighting cover 1800.
  • the lighting cover 1800 is formed to extend in a preset direction (left and right directions based on FIG. 2 ), both sides of which are connected to the housing unit 1100 , respectively, and may cover the lighting unit 110 .
  • the lighting cover 1800 may be formed in a plate shape and may be formed of a translucent material.
  • the lighting cover 1800 is detachable from the housing 1100, so that the user can replace the lighting cover 1800 with a different transparency according to convenience.
  • the speaker unit 1200 is installed in the housing unit 1100, is disposed outside the lighting unit 110, and can generate sound (S).
  • a plurality of speaker units 1200 may be provided to correspond to a plurality of housing units 1100, and thus a pair of housings facing each other.
  • a pair of speaker units 1200 may be installed inside each unit 1100, and may independently generate sound S.
  • the speaker unit 1200 generates sound S, and may include a sound module 1210.
  • the sound module 1210 generates sound S, and may generate vibration for sound S by using one or more driving members. Since a specific configuration of the sound module 1210 is well known, detailed description thereof will be omitted.
  • the sound (S) generated from the speaker unit 1200 is transmitted from the inside of the acoustic lighting device 1, specifically the housing unit 1100 to the external space and the outside. It can be effectively delivered to users in space.
  • the speaker unit 1200 may include a passive radiator (not shown). Due to the passive radiator, it is possible to reinforce the low sound without adding a separate woofer for low sound.
  • a plurality of passive radiators may be provided, and may be installed inside each of the pair of housing parts 1100 facing each other and spaced apart from each other.
  • the guide part 1300 is connected to the speaker part 1200, is installed inside the housing part 1100, and generates sound from the sound module 1210 ( S) can provide a delivery path.
  • the guide unit 1300 may be connected to the speaker unit 1200, specifically, the sound module 1210.
  • the guide unit 1300 may guide and deliver the sound S generated from the sound module 1210 to the external space of the sound lighting device 1, specifically, the housing unit 1100 along a preset path.
  • the guide unit 1300 may be formed in a tubular shape with a hollow inside. Due to this, there is an effect that the module generated in the acoustic module 1210 can be transmitted toward the outside along a preset direction through the inner space of the guide unit 1300 .
  • the guide unit 1300 may include a guide body 1310 having a hollow inside, and the guide body 1310 is bent at least once and passes through a path. may change.
  • the length of the transmission path of the sound S generated from the sound module 1210 may be adjusted.
  • the sound S generated from different sound modules 1210 is transmitted along the plurality of guide parts 1300 respectively connected to each sound module 1210 and combined to amplify the sound S. and external sound lighting device 1, specifically, there is an effect of effectively transmitting the sound S generated inside the housing 1100 to the outside.
  • the guide portion 1300 since the guide portion 1300 according to an embodiment of the present invention is formed in a tubular shape having at least one bent portion 1311 and having a preset cross-sectional area, the guide portion 1300
  • the sound (S) is intensively directed toward the outer space of the housing part (1100), compared to simply sounding (S) and transmitting the sound (S) to the outside while losing directionality inside the housing part (1100), which is formed relatively large without S) has the effect of delivering.
  • the housing part 1100 has a relatively smaller space than the housing part 1100 and is installed in the housing part 1100 through the guide part 1300 connected to the speaker cover 1400 to be described later so as to pass through the outside of the housing part 1100.
  • the sound (S) generated from the speaker unit 1200, specifically the sound module 1210, may be transmitted to the outside along a preset path, so that the sound (S) is effectively provided to the user.
  • the guide part 1300 may be formed of a material capable of shape deformation. However, it is not limited to this, and various modifications are made, such as one end being connected to the sound module 1210 and the other end opposite to this being formed of a material that maintains its shape within the technical concept of being connected to the speaker cover 1400 to be described later. is possible
  • the speaker cover 1400 is connected to the housing part 1100, and the other end opposite to one end of the guide part 1300 connected to the speaker part 1200. It may be disposed facing the end.
  • the speaker cover 1400 may cover one side (lower side in FIG. can be formed.
  • the guide part 1300 passes through the speaker cover 1400 and is connected to the speaker cover 1400, but is not limited thereto, and the inner surface of the speaker cover 1400 ( It is possible to implement various modifications, such as being connected to the top surface of FIG. 3).
  • At least one passage hole 1410 may be disposed inside the guide part 1300 according to an embodiment of the present invention.
  • the speaker unit 1200 according to an embodiment of the present invention, specifically, the sound (S) generated in the sound module 1210 moves along the inside of the guide unit 1300, and the guide connected to the sound module 1210 It can be effectively transmitted to the external space of the acoustic lighting device 1 and to a user outside by passing through at least one passage hole 1410 disposed to face the other end opposite to one end of the part 1300 .
  • the speaker cover 1400 can fix the position of the other end opposite to one end of the guide part 1300 connected to the speaker part 1200, specifically the sound module 1210, By fixing the position of the guide part 1300 where at least one bent part 1311 is formed, sound S is generated in the sound module 1210 along a preset path and passes through the speaker cover 1400. to be transmitted externally.
  • the cover part 1600 covers the housing part 1100 in which the speaker part 1200 and the lighting part 110 are installed, and the housing part 1100 ) can be associated with
  • the cover part 1600 may be connected to at least one wire part 1700, and one end of the wire part 1700 is connected to the cover part 1600. connected, and the other end opposite to this is installed on a ceiling or the like so that the acoustic lighting device 1 can be positioned and fixed at a desired position inside the building.
  • the lighting cover 1800 according to an embodiment of the present invention is coupled to the housing unit 1100, covers the lighting unit 110 installed in the housing unit 1100, and the housing unit (1100).
  • Both sides of the lighting cover 1800 according to an embodiment of the present invention are connected to a pair of housing parts 1100 that are spaced apart from each other and may be formed of a translucent material. As a result, the brightness of the light source L generated from the lighting unit 110 can be stably adjusted, and excessive light from the lighting unit 110 can be prevented from being transmitted to the user.
  • the acoustic lighting device 1 includes a housing part 1100, a speaker part 1200, a guide part 1300, a speaker cover 1400, and a cover part. 1600, a wire unit 1700, and a lighting cover 1800 may be included.
  • the housing unit 1100 is capable of installing a lighting unit 110 generating a light source L, a pair is provided and can be disposed facing each other, ,
  • the lighting unit 110 may be installed between the housing units 1100 of one phase.
  • the lighting unit 110 may generate a light source L by receiving power from the outside, and a lighting cover 1800 may be disposed on one side facing the lighting unit 110 (lower side in FIG. 2).
  • the lighting cover 1800 is connected to the housing 1100, is fixed in position, and may be formed of a translucent material or the like.
  • the brightness of the light source L generated from the lighting unit 110 can be stably adjusted, and excessive light from the lighting unit 110 can be prevented from being transmitted to the user.
  • a speaker unit 1200 may be installed in the housing unit 1100 according to an embodiment of the present invention, and the speaker unit 1200 may include a sound module 1210 .
  • the sound module 1210 may receive power from the outside and generate sound S by one or more driving members.
  • the guide unit 1300 is connected to the speaker unit 1200 and may be installed inside the housing unit 1100 .
  • the guide unit 1300 may include a guide body 1310, and the guide body 1310 may be bent at least once to form a bent portion 1311.
  • the guide body 1310 is formed in a tubular shape with a hollow inside, one end may be connected to the sound module 1210, and the other end opposite to this may be connected to the speaker cover 1400.
  • the guide body 1310 has a relatively small space compared to the housing part 1100 and transmits the sound S generated from the sound module 1210 along a predetermined path along at least one bent part 1311 to the sound lighting device. (1) can be effectively transmitted to the outside, and sound (S) generated in the sound module 1210 can be sounded in the inner space of the housing part 1100 and loss of sound (S) can be prevented.
  • the speaker cover 1400 is connected to the housing part 1100 and may be disposed facing the other end opposite to one end of the guide part 1300 connected to the speaker part 1200 .
  • the end of the guide part 1300 can be fixed in position, and the sound S generated from the sound module 1210 can be stably transmitted to the outside along a preset path of the guide part 1300.
  • the acoustic lighting device 1 In addition to transmitting the light source L generated from the lighting unit 110 to the user, the acoustic lighting device 1 according to an embodiment of the present invention generates noise generated from the speaker unit 1200 installed in the housing unit 1100. As the sound S is simply resonated inside the housing part 1100, the sound S is not transmitted to the outside, but the guide part 1300 provides a transmission path of the sound S along a preset path And, there is an effect that the sound (S) generated from the speaker unit 1200 can be stably transmitted to the external space of the sound lighting device 1 and the user outside without loss.
  • FIG. 4 is a view showing a connection unit according to an embodiment of the present invention.
  • the acoustic lighting device 1 includes a housing part 1100, a speaker part 1200, a guide part 1300, and a speaker cover 1400. , It may include a connection part 1500, a cover part 1600, a wire part 1700, and a lighting cover 1800.
  • connection unit 1500 Since the acoustic lighting device 1 according to another embodiment of the present invention has a difference in the configuration of the connection unit 1500 compared to the acoustic lighting device 1 according to one embodiment of the present invention, the configuration of the connection unit 1500 Focus on explaining in detail.
  • connection part 1500 is installed in the housing part 1100 and can divide the inner space of the housing part 1100 into a plurality of spaces.
  • the connection part 1500 may be formed in a plate shape, and may be connected to and in contact with the inner surface of the housing part 1100 along the circumference.
  • connection part 1500 may be connected to the guide part 1300, and one end of the guide part 1300 is connected to the speaker part 1200, specifically, the sound module 1210, and faces it. The other end may be connected to the connection unit 1500.
  • the position of the other end opposite to one end of the guide part 1300 connected to the acoustic module 1210 can be stably fixed due to the connection part 1500 according to an embodiment of the present invention.
  • the sound S can be effectively transmitted to the outside.
  • connection part 1500 is disposed at a predetermined position inside the housing part 1100, and the guide part 1300 is connected to one side (upper side based on FIG. 4). And, the other side opposite to this faces the speaker cover 1400, and the speaker cover 1400 and the connection part 1500 are spaced apart by a predetermined distance and can form a space.
  • the sound S generated from the sound module 1210 is transmitted along the space formed in the guide part 1300, specifically the guide body 1310, which is the external space of the sound lighting device 1. Rather than coming out, the sound (S) is transmitted to the space formed between the connection part 1500 and the speaker cover 1400, and this sound (S) is passed through the through hole 1410 formed in the speaker cover 1400. There is an effect that can be effectively transmitted to the external space of the acoustic lighting device 1 and to the user outside.
  • the acoustic lighting device 1 In addition to transmitting the light source L generated from the lighting unit 110 to the user, the acoustic lighting device 1 according to another embodiment of the present invention generates noise generated from the speaker unit 1200 installed in the housing unit 1100. As the sound S is simply resonated inside the housing part 1100, the sound S is not transmitted to the outside, but the guide part 1300 provides a transmission path of the sound S along a preset path And, there is an effect that the sound (S) generated from the speaker unit 1200 can be stably transmitted to the external space of the sound lighting device 1 and the user outside without loss.
  • the position of the guide part 1300, specifically, the guide body 1310, inside the housing part 1100 can be stably fixed due to the connection part 1500, and between the connection part 1500 and the speaker cover 1400
  • the sound S is transmitted to the space formed in the speaker cover 1400 and passes through the passage hole 1410 formed in the speaker cover 1400 so that the sound S can be transmitted to the outside of the sound lighting device 1.
  • connection part 1500 is installed inside the housing part 1100 and is opposite to one end of the guide part 1300 connected to the sound module 1210.
  • FIG. 5 is a view showing a guide unit according to another embodiment of the present invention.
  • the acoustic lighting device 1 includes a housing part 1100, a speaker part 1200, a guide part 1300, a speaker cover 1400 ), the cover part 1600, the wire part 1700, and the lighting cover 1800 may be included.
  • the acoustic lighting device 1 according to another embodiment of the present invention has a difference in the configuration of the guide part 1300 compared to the acoustic lighting device 1 according to an embodiment of the present invention, the guide part 1300 The structure of is explained in detail.
  • the guide part 1300 is connected to the speaker part 1200, is installed inside the housing part 1100, and sounds generated from the sound module 1210 ( S) can provide a delivery path.
  • a guide unit 1300 may be connected to a speaker unit 1200, specifically, a sound module 1210.
  • the guide unit 1300 may guide and deliver the sound S generated from the sound module 1210 to the external space of the sound lighting device 1, specifically, the housing unit 1100 along a preset path.
  • the guide unit 1300 may be formed in a tubular shape with a hollow inside. Due to this, there is an effect that the module generated in the acoustic module 1210 can be transmitted toward the outside along a preset direction through the inner space of the guide unit 1300 .
  • a guide unit 1300 may include a guide body 1310 having a hollow inside, and the guide body 1310 is bent at least once and passes through a path. may change.
  • the length of the transmission path of the sound S generated from the sound module 1210 may be adjusted.
  • the sound S generated from different sound modules 1210 is transmitted along the plurality of guide parts 1300 respectively connected to each sound module 1210 and combined to amplify the sound S. and external sound lighting device 1, specifically, there is an effect of effectively transmitting the sound S generated inside the housing 1100 to the outside.
  • the guide part 1300 since the guide part 1300 according to another embodiment of the present invention is formed in a tubular shape having at least one bent part 1311 and having a preset cross-sectional area, the guide part 1300
  • the sound (S) is intensively directed toward the outer space of the housing part (1100), compared to simply sounding (S) and transmitting the sound (S) to the outside while losing directionality inside the housing part (1100), which is formed relatively large without S) has the effect of delivering.
  • the speaker unit has a relatively smaller space than the housing unit 1100 and is installed in the housing unit 1100 through the guide unit 1300 connected to the speaker cover 1400 to pass through the outside of the housing unit 1100. 1200, specifically, the sound S generated in the sound module 1210 can be transmitted to the outside along a preset path, so that the sound S can be effectively provided to the user.
  • the guide part 1300 may be formed of a material capable of shape deformation. However, it is not limited to this, and various modifications are possible, such as being formed of a material whose shape is maintained within the technical concept of one end connected to the sound module 1210 and the other end opposite to this connected to the speaker cover 1400. .
  • a guide unit 1300 according to another embodiment of the present invention is a speaker unit 1200, specifically a speaker unit 1200, specifically a speaker unit 1200, one end opposite to the other end connected to the sound module 1210 according to another embodiment of the present invention.
  • the branching portion 1313 may be formed so that the end portion is divided into a plurality of paths.
  • each of the plurality of branching parts 1313 is connected to the speaker cover 1400 and may be delivered to the outside along a path formed in each of the plurality of branching parts 1313 . Due to the plurality of branching parts 1313, there is an effect of effectively providing sound (S) to a user in an external space.
  • the acoustic lighting device 1 transfers the light source L generated from the lighting unit 110 to the user, and a speaker installed in the housing unit 1100.
  • the sound (S) generated in the unit 1200 is not simply transmitted to the outside as the sound (S) resonates inside the housing unit 1100, but along the path set in advance by the guide unit 1300 ( S) is provided, and the sound S generated from the speaker unit 1200 is stably transmitted to the external space of the acoustic lighting device 1 and to the user outside without loss.
  • the sound lighting device 1 is formed in a tubular shape with a hollow inside and is related to the shape of the guide part 1300 providing a transmission path of sound S.
  • a plurality of branching parts 1313 are formed at the other end opposite to the speaker part 1200, specifically, at one end connected to the sound module 1210, and the plurality of branching parts 1313 are the speaker cover 1400
  • 6 and 7 are diagrams illustrating a guide unit according to still other embodiments of the present invention.
  • the acoustic lighting device 1 includes a housing part 1100, a speaker part 1200, a guide part 1300, a speaker cover 1400 ), the cover part 1600, the wire part 1700, and the lighting cover 1800 may be included.
  • the configuration of the speaker unit 1200 and the guide unit 1300 is different in the acoustic lighting device 1 according to another embodiment of the present invention.
  • the speaker unit 1200 and the configuration of the guide unit 1300 will be described in detail.
  • the speaker unit 1200 is installed in the housing unit 1100 and disposed outside the lighting unit 110, and may include a sound module 1210 generating sound S.
  • a plurality of sound modules 1210, 1210A, and 1210B may be provided.
  • a plurality of guide units 1300 may be provided and connected to a speaker unit 1200, specifically, to a plurality of sound modules 1210A and 1210B.
  • the plurality of guide parts 1300 may be installed inside the housing part 1100 and independently provide a transmission path of sound S generated from the plurality of sound modules 1210A and 1210B.
  • the guide unit 1300 may be connected to a speaker unit 1200, specifically, a sound module 1210.
  • the guide unit 1300 may guide and deliver the sound S generated from the sound module 1210 to the external space of the sound lighting device 1, specifically, the housing unit 1100 along a preset path.
  • the guide part 1300 may be formed in a tubular shape with a hollow inside. Due to this, there is an effect that the module generated in the acoustic module 1210 can be transmitted toward the outside along a preset direction through the inner space of the guide unit 1300 .
  • the guide unit 1300 may include a guide body 1310 having a hollow inside, and the guide body 1310 may be bent at least once and the path may be changed.
  • the plurality of guide parts 1300 may have the same path length.
  • the sound (S) generated from the sound module 1210 disposed at different locations can reach the speaker cover 1400 at the same time through the plurality of guide parts 1300 formed with the same length, and the speaker cover
  • the acoustic lighting device 1, specifically, the sound S can be transmitted to the external space of the housing 1100 through the 1400.
  • sound S generated from a plurality of acoustic modules 1210A and 1210B due to at least one bent portion 1311 formed on a guide body 1310 is transmitted through a plurality of guide portions 1300.
  • the length of the guide part 1300 is changed by the difference in the position of the sound module 1210 so that the sound S generated from different sound modules 1210 is simultaneously connected to the housing part 1100 It has the effect of passing through the speaker cover 1400 and being transferred to the external space.
  • the sound (S) generated from different sound modules 1210 is transmitted along the plurality of guide parts 1300 respectively connected to each sound module 1210 and is transmitted to the outside at the same time.
  • the sound (S) generated from different sound modules 1210 is transmitted along the plurality of guide parts 1300 respectively connected to each sound module 1210 and is transmitted to the outside at the same time.
  • the acoustic lighting device 1 specifically, the sound S generated inside the housing 1100 can be effectively transmitted to the outside.
  • the guide portion 1300 is relatively free.
  • the directionality is lost inside the housing part 1100, which is formed large, and the sound S is intensively directed toward the outer space of the housing part 1100, compared to simply sounding and transmitting the sound S to the outside. There is an effect that can be conveyed.
  • the housing part 1100 has a relatively smaller space than the housing part 1100 and is installed in the housing part 1100 through a plurality of guide parts 1300 connected to the speaker cover 1400 to pass through the outside of the housing part 1100.
  • the sound S generated from the speaker unit 1200 specifically, the plurality of sound modules 1210A and 1210B, can be transmitted to the outside along a predetermined path, so that the sound S is effectively provided to the user.
  • the guide part 1300 may be formed of a material capable of shape deformation. However, it is not limited to this, and various modifications are possible, such as being formed of a material whose shape is maintained within the technical concept of one end connected to the sound module 1210 and the other end opposite to this connected to the speaker cover 1400. .
  • the acoustic lighting device 1 includes a plurality of speaker units 1200, specifically, a plurality of sound modules 1210, and a plurality of sound modules 1210A. , 1210B) is connected to a plurality of guide parts 1300, and sound S generated independently from different sound modules 1210A and 1210B is transmitted along the guide part 1300 having the same length, so that the acoustic lighting device ( 1) the housing portion 1100 of the sound lighting device 1 according to an embodiment of the present invention, the speaker cover 1400, except that an amplification effect can be implemented when the sound S is transmitted to the outside, Since the configuration, operating principle, and effect of the cover unit 1600, the wire unit 1700, and the lighting cover 1800 are the same, a detailed description thereof will be omitted in the overlapping range.
  • 8 and 9 are diagrams illustrating connection units according to embodiments of the present invention.
  • an acoustic lighting device 1 includes a housing part 1100, a speaker part 1200, a guide part 1300, and a speaker. It may include a cover 1400, a connection part 1500, a cover part 1600, a wire part 1700, and a lighting cover 1800.
  • the speaker unit 1200 may include a plurality of acoustic modules 1210A and 1210B. and a plurality of guide parts 1300 respectively connected to the plurality of sound modules 1210A and 1210B and providing a transmission path of the sound S, respectively.
  • connection unit 1500 since there is a difference in the configuration of the connection unit 1500 compared to the acoustic lighting device 1 according to the embodiment of FIG. 6 , the configuration of the connection unit 1500 will be described in detail.
  • connection part 1500 is installed in the housing part 1100 and can partition the inner space of the housing part 1100 into a plurality of spaces.
  • the connection part 1500 may be formed in a plate shape, and may be connected to and in contact with the inner surface of the housing part 1100 along the circumference.
  • connection unit 1500 may be connected to a plurality of guide units 1300, and one end of the plurality of guide units 1300 is connected to the speaker unit 1200, specifically to the sound module 1210, The other end opposite to this may be connected to the connection part 1500 .
  • the position of the other end opposite to one end of the plurality of guide parts 1300 respectively connected to the plurality of acoustic modules 1210A and 1210B can be stably fixed due to the connection part 1500 .
  • the sound (S) transmission performance is lost due to the sound (S) generated from the plurality of sound modules (1210A, 1210B) resonating inside the housing part (1100) having a relatively larger space than the guide part (1300). This can be prevented from happening, and the sound (S) can be effectively transmitted to the outside along the plurality of guide parts 1300 formed with a preset length.
  • connection part 1500 is disposed at a predetermined position inside the housing part 1100, and a plurality of guide parts 1300 pass therethrough and are respectively connected to a plurality of sound modules 1210A and 1210B.
  • the other end opposite to one end of the plurality of guide parts 1300 may be fixed to the speaker cover 1400 .
  • the transmission path of the sound S can be stably provided, and in the plurality of sound modules 1210A and 1210B There is an effect that the generated sound (S) can be stably transmitted to the external space of the acoustic lighting device 1 and the user outside through the plurality of guide parts 1300 .
  • a plurality of guide parts 1300 are connected to one side of the connection part 1500 (upper side based on FIG. 9), and the other side opposite to this is connected to the speaker cover 1400 while facing the speaker cover ( 1400) and the connection part 1500 are separated by a predetermined distance and may form a space.
  • sound S generated from a plurality of sound modules 1210A and 1210B is transmitted along a space formed in a guide part 1300, specifically, a plurality of guide bodies 1310, and the sound lighting device
  • the sound (S) is transmitted to the space formed between the connection part 1500 and the speaker cover 1400, rather than coming out to the external space of (1), and this sound (S) passes through the speaker cover 1400.
  • Through the hole 1410 there is an effect of enabling the acoustic lighting device 1 to be effectively transmitted to the external space and the user outside.
  • the speaker unit 1200 installed in the housing unit 1100 in addition to transmitting the light source L generated from the lighting unit 110 to the user, the speaker unit 1200 installed in the housing unit 1100 generates light.
  • the sound (S) is simply resonated inside the housing part 1100, the sound (S) is not transmitted to the outside, but the guide part 1300 guides the transmission path of the sound (S) along a preset path.
  • the guide part 1300 guides the transmission path of the sound (S) along a preset path.
  • connection part 1500 can stably fix the position of the plurality of guide parts 1300, specifically the guide body 1310, inside the housing part 1100, and the connection part 1500 and the speaker cover 1400 ), the sound (S) is transmitted to the space formed between the speaker cover 1400 and passes through the passage hole 1410 formed in the speaker cover 1400 so that the sound (S) can be transmitted to the outside of the sound lighting device 1 .
  • connection part 1500 is installed inside the housing part 1100 and a plurality of guide parts 1300 connected to the plurality of sound modules 1210A and 1210B.
  • Acoustic lighting device 1 according to an embodiment of the present invention, except that the other end opposite to one end is fixed to a position preset inside the housing 1100 or to the speaker cover 1400.
  • the housing part 1100, the speaker cover 1400, the cover part 1600, the wire part 1700, and the lighting cover 1800 have the same configuration, operating principle and effect, detailed descriptions are omitted in the overlapping range. do.
  • FIG. 10 is a perspective view illustrating an acoustic lighting device according to an embodiment of the present invention.
  • 11 is an exploded perspective view illustrating an acoustic lighting device according to an embodiment of the present invention.
  • FIG. 12 is a cross-sectional view on the basis of II of FIG. 10 .
  • FIG. 13 is an enlarged view showing part B of FIG. 12 .
  • FIG. 14 is an enlarged view illustrating part C of FIG. 13 .
  • the acoustic lighting device 2 may include a housing part 2100, a light source part 2200, a speaker part 2300, and a cover part 2600. have.
  • the housing part 2100 according to an embodiment of the present invention has one side (front side in reference to FIG. 11) opened and the inside may be hollow.
  • a light source unit 2200 and a speaker unit 2300 which will be described later, are installed in the housing unit 2100, and can transmit lighting and sound to a user.
  • the housing part 2100 has one side (front side in reference to FIG. 11) opened, and a first accommodating part 2101, a shielding part 2105, and a second housing part 2100 are inside the housing part 2100.
  • An accommodating portion 2103 may be formed.
  • the other surface referenced to the rear surface in FIG. 11
  • one surface front surface in FIG. It can be fixed in position on the ceiling, etc.
  • the housing part 2100 specifically, the other surface and the ceiling are fastened with fastening members such as bolts and screws, and there is an effect that the housing part 2100 can be stably fixed to the ceiling, etc., which is an installation place.
  • the sidewall of the housing unit 2100 is surrounded by four sides and is formed in a rectangular pillar shape while adjacent different sidewalls are vertically connected, but is not limited thereto. , various modifications are possible, such as being formed in a curved shape in a section where different sidewalls are adjacent to each other.
  • the first accommodating part 2101 is formed in the shape of a groove with a predetermined depth in the housing part 2100, and a light source part 2200 to be described later can be disposed therein.
  • the first accommodating part 2101 according to an embodiment of the present invention may be formed to extend along the circumference based on the center of the housing part 2100 .
  • the first accommodating part 2101 according to an embodiment of the present invention is extended, but is not limited thereto, and is divided into at least one area, and at least one light source unit corresponding to the at least one area. 2200 can be arranged, and various modifications are possible.
  • a first accommodating part 2101 shares a center with a second accommodating part 2103 to be described later, and is disposed outside the second accommodating part 2103.
  • the first accommodating part 2101 is spaced apart from the second accommodating part 2103, and a shielding part 2105 to be described later may protrude between the first accommodating part 2101 and the second accommodating part 2103. have.
  • the shielding part 2105 protrudes from one surface of the housing part 2100 (front side in FIG. 11 ) toward the outside (front side in FIG. 11 ), and the second accommodating portion 2103, the first accommodating portion 2101 and the second accommodating portion 2103 may be partitioned.
  • the shielding unit 2105 may be formed of various materials, and heat generated from the light source unit 2200 installed in the first housing unit 2101 is transferred to the second housing unit 2103. It may be formed of a heat insulating material that can prevent transmission to the sound module 2330 to be installed.
  • the shielding unit 2105 is formed in a rectangular pillar shape along the circumference, but is not limited thereto, and various shapes corresponding to the shape of the light source unit 2200 and the speaker unit 2300 to be described later. Modifications are possible.
  • a speaker unit 2300 may be disposed inside the shielding unit 2105 according to an embodiment of the present invention, and a second accommodating unit 2103 formed inside the shielding unit 2105 A speaker unit 2300 to be described later may be installed.
  • the inner circumferential surface of the shielding unit 2105 and the outer circumferential surface of the speaker housing 2310 of the speaker unit 2300 may face each other and may be spaced apart from each other by a predetermined distance. .
  • the inner circumferential surface of the shield 2105 and the outer circumferential surface of the speaker housing 2310 of the speaker unit 2300 are in surface contact and the speaker unit 2300 installed in the second accommodating unit 2103 is stably positioned. can be fixed.
  • a straddling member may be rotatably connected to the lower end (refer to FIG. 12) of the shielding unit 2105, and the second area that is the inner region of the shielding unit 2105 Before the speaker unit 2300 is inserted into the accommodating unit 2103, the straddling member is rotated so that it does not overlap with the second accommodating unit 2103, and after the speaker unit 2300 is inserted into the second accommodating unit 2103
  • the speaker unit 2300 is formed by rotating the straddling member so that the end of the straddling member formed in a direction away from the central axis of rotation overlaps the area of the second accommodating part 2103 and is disposed on the extraction path of the speaker unit 2300. ) has an effect of preventing separation from the housing part 2100 towards the bottom.
  • the second accommodating part 2103 is one surface of the housing part 2100 facing the installation surface on which the acoustic lighting device 2 is installed (refer to FIG. 11). It is formed on the other surface (front surface in FIG. 11) opposite to the rear surface), and may be formed in the shape of a groove with a predetermined depth on the inside of the shield 2105.
  • the second accommodating part 2103 shares a center with the first accommodating part 2101 and the shielding part 2105 and may be disposed in the center of the housing part 2100 .
  • the second accommodating part 2103 may be disposed at a different height from the first accommodating part 2101 .
  • the speaker unit 2300 may be disposed on the lower side of the second accommodating part 2103 (refer to FIG. 12), and the speaker unit 2300 may be disposed on the upper side of the second accommodating unit 2103 (refer to FIG. 12). ), specifically, a power supply unit electrically connected to the sound module 2330, a communication module capable of communicating with external devices, a control unit, and the like may be installed.
  • the light source unit 2200 is disposed inside the housing unit 2100 and can emit a light source to the outside.
  • the light source unit 2200 may include a panel unit 2210 and a light emitting unit 2230 .
  • the panel portion 2210 is disposed in the first accommodating portion 2101 and may be fixed in position to the first accommodating portion 2101 .
  • the panel unit 2210 may include a circuit board, and an electronic component such as a diode for supplying stable power to the light emitting unit 2230 may be installed on the panel unit 2210 .
  • the light emitting unit 2230 according to an embodiment of the present invention is electrically connected to the panel unit 2210 and receives power from the panel unit 2210 to generate a light source.
  • a light source may be generated from the light emitting unit 2230, and the light source may be irradiated in a downward direction (refer to FIG. 12).
  • the light source unit 2200 according to an embodiment of the present invention is formed in a plate shape, but a plurality of light source units 2200 may be spaced apart on the panel unit 2210 .
  • the light source unit 2200 may be formed of a material with low power consumption, and may be specifically formed of an LED element.
  • the speaker unit 2300 according to an embodiment of the present invention is installed in the housing unit 2100, and may be specifically installed in the second accommodating unit 2103.
  • the speaker unit 2300 may include a speaker housing 2310, a sound module 2330, and a transmission surface 2350, and sound is generated from the speaker unit 2300 to external, specific It can be exported to the space where the acoustic lighting device 2 is installed.
  • the speaker housing 2310 may be connected to the upper end of the transmission surface 2350 along the circumference based on the center of the speaker unit 2300, and one end of the speaker housing 2310 connected to the transmission surface 2350 ( The other end (upper end in FIG. 12 ) opposite to the lower end in FIG. 12 ) may be connected to the housing part 2100 , specifically the second accommodating part 2103 .
  • the transmission surface 2350 is spaced apart from the second accommodating part 2103 at a predetermined distance, and the speaker housing 2310 connects the transmission surface 2350 and the housing part 2100 along the circumference, so that the speaker unit
  • the inside of the 2300 may be hollow, and a space in which the sound module 2330 may be installed may be formed.
  • the transfer surface 2350 according to an embodiment of the present invention is provided with an expression area such as a pattern.
  • patterns such as patterns are shown, or pictures, photos, etc. are visually displayed to the user. Visual elements that can be conveyed can be shown.
  • the transmission surface 2350 may be formed in a flat plate shape, and one side of the acoustic module 2330 may come into contact with the transmission surface 2350 . Due to this, the vibration generated in the sound module 2330 is transmitted to the transmission surface 2350, and the acoustic sound is transmitted toward the outside of the speaker unit 2300, specifically, downward from the ceiling where the sound lighting device 2 is installed. It has the effect of transmitting sound, which is an element.
  • the transmission surface 2350 may be formed of various materials, for example, it may be formed of a plastic-based material having excellent durability or water resistance.
  • the transmission surface 2350 may be disposed facing the housing part 2100, specifically, the second accommodating part 2103.
  • a speaker housing 2310 may be disposed between the transfer surface 2350 and the second accommodating portion 2103 .
  • a controller may be disposed inside the speaker unit 2300 .
  • the control unit may apply an electrical signal for driving the sound module 2330 to the sound module 2330, and may specifically include a circuit board shape.
  • the control unit may be electrically connected to a sensor unit (not shown) installed in the acoustic lighting device 2, and the sensor unit may be connected to a surrounding situation of the acoustic lighting device 2, specifically, a user's approach to the acoustic lighting device 2, and the like.
  • the controller may apply the electrical signal to the acoustic module 2330 to drive the acoustic module 2330.
  • the control unit may be disposed between the transmission surface 2350 and the second accommodating part 2103, and may be installed in the speaker housing 2310 so as not to affect the vibration of the transmission surface 2350.
  • it is not limited thereto, and is installed on the other surface (the upper surface in FIG. 12) opposite to one surface (the lower surface in FIG. 12) of the second accommodating part 2103 facing the transmission surface 2350, and the sound is transmitted through wires or the like.
  • Various modifications such as being electrically connected to the module 2330 are possible.
  • a power supply unit may be disposed inside the speaker unit 2300 .
  • the power supply unit supplies power for driving the sound module 2330, and may have various forms or may have a battery form. When the power supply unit is formed in the form of a battery, it may be charged in a wired or wireless manner.
  • the power supply unit may be disposed between the transmission surface 2350 and the second accommodating part 2103, and may be installed in the speaker housing 2310 so as not to affect the vibration of the transmission surface 2350.
  • it is not limited thereto, and is installed on the other surface (the upper surface in FIG. 12) opposite to one surface (the lower surface in FIG. 12) of the second accommodating part 2103 facing the transmission surface 2350, and the sound is transmitted through wires or the like.
  • Various modifications such as being electrically connected to the module 2330 are possible.
  • a speaker unit 2300 may be formed in a box shape in which a transmission surface 2350 and a speaker housing 2310 are connected.
  • one side of the speaker unit 2300 facing the second accommodating portion 2103 of the housing unit 2100 according to an embodiment of the present invention may be opened, and a bolt may be opened.
  • a fastening member such as the back passes through the second accommodating portion 2103 and is fastened to the speaker housing 2310, the speaker unit 2300 can be stably fixed to the second accommodating portion 2103.
  • the inner space formed surrounded by the transmission surface 2350 according to an embodiment of the present invention, one side of the second accommodating part 2103 facing the transmission surface 2350, and the speaker housing 2310.
  • a vibration reducing member and a sound absorbing member may be installed.
  • the vibration reducing member or the sound absorbing member may be disposed around the sound module 2330 on the transmission surface 2350 and one surface of the second accommodating part 2103 (referring to FIG. 12 ).
  • one side of the speaker unit 2300 facing the second accommodating unit 2103 (upper side in FIG. 12) is open, but is limited thereto Rather, a rear portion (not shown) facing the transmission surface 2350 is formed, the rear portion is disposed facing the second accommodating portion 2103, and a fastening member passes through the second accommodating portion 2103 and the rear portion.
  • a fastening member passes through the second accommodating portion 2103 and the rear portion.
  • a control unit and a power supply unit electrically connected to the sound module 2330 may be installed on the rear surface.
  • the acoustic module 2330 according to an embodiment of the present invention is disposed inside the speaker unit 2300, and has a transmission surface 2350 and one surface of the second accommodating unit 2103. can be placed in between.
  • the sound module 2330 may be connected to the transmission surface 2350 and generate vibration for sound using at least one driving member 2331 .
  • one side (lower side based on FIG. 12 ) of the acoustic module 2330 may directly or indirectly contact the transmission surface 2350 .
  • vibrations generated in the sound module 2330 can be transmitted to the transmission surface 2350, and through this, sound, It has the effect of conveying auditory elements such as music.
  • the acoustic module 2330 may include a driving member 2331 and a diaphragm 2335 .
  • the diaphragm 2335 may be disposed to face the transmission surface 2350 between the transmission surface 2350 and the housing part 2100, specifically, the second accommodating part 2103.
  • the diaphragm 2335 may directly or indirectly contact and be connected to the transmission surface 2350 . Accordingly, when vibration occurs through the diaphragm 2335, the vibration can be easily transmitted to the transmission surface 2350.
  • An intermediate member may be disposed between the transmission surface 2350 and the acoustic module 2330, specifically the diaphragm 2335 according to an embodiment of the present invention, but this intermediate member is also included in the diaphragm 2335.
  • the generated vibration is transmitted to the transmission surface 2350, and the speaker unit 2300, specifically, the transmission surface 2350 and the diaphragm 2335 indirectly contact each other, and through the transmission surface 2350, the acoustic module 2330
  • the generated sound can be effectively transmitted to an external user.
  • a driving member 2331 may drive the diaphragm 2335 by being connected to the diaphragm 2335 so that the diaphragm 2335 vibrates to generate sound.
  • the driving member 2331 may include an actuator or various other vibration elements.
  • the driving member 2331 may receive sound information from the control unit, and the control unit may receive sound information such as music desired by a user through a wired or wireless connection, and the control unit may transmit sound information to the driving member 2331.
  • the driving member 2331 may drive the diaphragm 2335 by transmitting an electrical signal.
  • the acoustic module 2330 including the diaphragm 2335 and the driving member 2331 may be a sound unit, for example, at least some modules of a speaker, and may be a passive type or an active ( active) type speaker functions may be implemented.
  • an acoustic module 2330 according to an embodiment of the present invention, specifically, a diaphragm 2335 and a transmission surface 2350 may contact each other through an ADS.
  • the bonding member ADS may include a cushion tape.
  • an adhesive layer including a resin-based material, or a silicon-based material are possible.
  • the bonding member ADS may be formed to be equal to or relatively larger than the size of one surface of the diaphragm 2335 facing the transmission surface 2350 . This prevents the diaphragm 2335 from being separated from the transmission surface 2350, and allows vibration generated from the diaphragm 2335 to be easily transmitted to the transmission surface 2350.
  • the vibration generated in the diaphragm 2335 is transferred to the vibration of the transmission surface 2350, and the sound generated by such vibration is transmitted to the transmission surface. 2350, there is an effect of effectively transmitting sound such as music and sound to an external user.
  • a plurality of sound modules 2330 may be provided, and the plurality of sound modules 2330 may be spaced apart from each other.
  • the plurality of acoustic modules 2330, specifically, each of the diaphragms 2335 are connected to the transmission surface 2350 in different areas, receive power from each driving member 2331 and vibrate, and these vibrations are transmitted to the transmission surface ( 2350) and allows sound to be generated to the outside.
  • the cover part 2600 according to an embodiment of the present invention is connected to the housing part 2100 and covers an area on the housing part 2100 where the light source part 2200 is disposed.
  • the cover part 2600 according to an embodiment of the present invention is formed in a shape corresponding to the shape of the light emitting part 2230 and may cover the first accommodating part 2101 .
  • one surface of the cover part 2600 according to an embodiment of the present invention may be connected to the lower end of the housing part 2100 (refer to FIG. 12 ), and a fastening member such as a bolt may be connected to the cover part 2600.
  • the housing portion 2100 can be fastened. As a result, it is possible to prevent foreign substances from being introduced into the housing part 2100, specifically, the light source part 2200 installed in the first accommodating part 2101.
  • the light generated from the light source unit 2200 is not directly transmitted to the user, but penetrates through the cover unit 2600 and is radiated downward, so that when the light source reaches the user, there is an effect of reducing fatigue to the user's eyes. have.
  • the cover unit 2600 may be formed of a material through which a light source generated and irradiated from the light source unit 2200 can pass.
  • the cover part 2600 may be formed of a transparent or translucent material so that light emitted from the light source part 2200 can pass through and be reflected to the outside.
  • the acoustic lighting device 2 provides a light source such as lighting to the user and is installed in the housing part 2100 where the light source part 2200 is installed, specifically the second accommodating part 2103. Auditory elements such as sound and music may be provided through the speaker unit 2300.
  • the speaker unit 2300 in which pictures, photos, patterns, etc. can be expressed, specifically, the transmission surface 2350 receives vibrations generated from the sound module 2330 and directly vibrates to generate sound, There is an effect of easily providing an auditory element such as music to a user.
  • 15 is a cross-sectional view of a sound module 2330 according to another embodiment of the present invention.
  • an acoustic lighting device may include a housing part 2100, a light source part 2200, a speaker part 2300, and a cover part 2600.
  • a separation space DA is provided between a speaker unit 2300, specifically, a sound module 2330, and a housing unit 2100, specifically, a second accommodating unit 2103. Except for the configurations formed, since the configurations and effects of the housing unit 2100, the light source unit 2200, and the cover unit 2600 according to an embodiment of the present invention are the same, hereinafter, the differences will be mainly described.
  • the shielding portion 2105 may be formed.
  • the speaker unit 2300 may be disposed on the second accommodating unit 2103 inside the shielding unit 2105, and may include a speaker housing 2310, a sound module 2330, and a transmission surface 2350. .
  • the acoustic module 2330 may be spaced apart from the housing part 2100, specifically, the second accommodating part 2103.
  • the second accommodating part 2103 may be spaced apart from the acoustic module 2330, specifically, the driving member 2331, and may be spaced apart at a predetermined distance (H).
  • a separation space DA may be formed between the second accommodating part 2103 and the sound module 2330 .
  • the vibration process of the sound module 2330 can be efficiently performed through the separation space DA.
  • transmission of vibrations generated in the sound module 2330 to the second accommodating part 2103 can be reduced or prevented, and transmission of vibrations is concentrated on the transmission surface 2350, thereby increasing the efficiency of sound generation. can improve
  • a vibration reducing member or a sound absorbing member may be installed in the inner space formed while being surrounded by the transmission surface 2350 and the speaker housing 2310 .
  • the vibration reducing member or the sound absorbing member is formed between the transmitting surface 2350 and one surface of the second accommodating part 2103 (referring to FIG. 15), around the acoustic module 2330, and between the acoustic module 2330 and the rear surface. It may be disposed in the formed separation space DA.
  • the acoustic module 2330 specifically, the driving member 2331 is spaced apart from the second accommodating part 2103, and has a predetermined distance H and a separation space DA can form
  • the sound module 2330 is connected and contacted only with the speaker unit 2300, specifically, the transmission surface 2350, and the vibration generated in the sound module 2330 moves entirely to the transmission surface 2350, so that the transmission surface ( 2350) has an effect of easily transmitting sound downward.
  • sound generated by such vibration can be transmitted to the transmitting surface 2350, so that sound such as music and sound can be effectively transmitted to the user.
  • vibration generated from the transmission surface 2350 can be transmitted to the installation so that sound is transmitted to the outside. It has an effect that can be effectively delivered.
  • the acoustic module 2330 specifically, the driving member 2331 has a predetermined distance H from the second accommodating part 2103, and a separation space DA therebetween Vibration generated in the sound module 2330 is transmitted to the second accommodating part 2103, that is, the housing part 2100, and prevents from being reduced, and vibrates by receiving power from the driving member 2331. Due to direct transmission to the transmission surface 2350 through 2335, the sound effect can be easily transmitted downward.
  • An acoustic lighting device according to another embodiment of the present invention, except that the acoustic module 2330, specifically, the driving member 2331 is spaced apart from the second accommodating part 2103, the acoustic lighting device according to one embodiment of the present invention Since the configurations and effects of the housing part 2100, the light source part 2200, and the cover part 2600 of the lighting device 2 are the same, detailed descriptions thereof are omitted to the extent that they overlap.
  • 16 to 19 are cross-sectional views illustrating a support unit according to embodiments of the present invention.
  • an acoustic lighting device may include a housing part 2100, a light source part 2200, a speaker part 2300, and a cover part 2600. . Since there is a difference in the configuration of the speaker unit 2300, specifically the support unit 2370, and the connecting member in the acoustic lighting device according to still other embodiments of the present invention, this will be described with emphasis.
  • one side of the support part 2370 may be positioned in a space between the transmission surface 2350 and the second accommodating part 2103, and the other side opposite to the support part 2370 is in contact with the acoustic vibration module 2330. ) can be supported.
  • the support part 2370 may contact the acoustic module 2330, specifically, the driving member, and support the acoustic module 2330 at one or more points.
  • the support part 2370 may come into surface contact with the acoustic module 2330 and surround and contact the acoustic module 2330, specifically the driving member.
  • a plurality of support units 2370 may be provided, and may support the acoustic module 2330 by contacting each other at different points of the driving member.
  • the plurality of points may be formed at positions facing each other with respect to the driving member.
  • both sides of the acoustic module 2330 are contacted and supported to prevent noise and deterioration in sound quality caused by non-uniform vibration of the acoustic module 2330, and vibration of the diaphragm generated by receiving power from the driving member is transmitted. It has the effect of enabling easy transfer through the surface 2350.
  • each of the plurality of support parts 2370 has one end connected to the acoustic module 2330, specifically, the driving member, and the other end opposite to this is connected to the transmission surface 2350 and the second accommodating part 2103. ) can be fixed in position between one side (when referring to FIG. 16).
  • a support part 2370 may contact and support the driving member and be spaced apart from the diaphragm. Since the support part 2370 is spaced apart from the diaphragm, the driving member that drives the diaphragm is stably supported and does not affect vibration generated from the diaphragm.
  • the vibration generated from the diaphragm can be easily transmitted to the speaker unit 2300, specifically, the transmission surface 2350, and the sound due to the vibration generated from the diaphragm can be effectively transmitted to the outside through the vibration of the transmission surface 2350. There is an effect that can be delivered to the user in .
  • the sound module 2330 may be spaced apart from the housing part 2100, specifically, the second accommodating part 2103.
  • the second accommodating part 2103 may be spaced apart from the acoustic module 2330, specifically, the driving member, and may be spaced apart at a predetermined distance (H).
  • a separation space DA may be formed between the second accommodating part 2103 and the sound module 2330 .
  • the vibration process of the sound module 2330 can be efficiently performed through the separation space DA.
  • transmission of vibrations generated in the sound module 2330 to the second accommodating part 2103 can be reduced or prevented, and transmission of vibrations is concentrated on the transmission surface 2350, thereby increasing the efficiency of sound generation. can improve
  • a vibration reducing member or a sound absorbing member may be installed in the inner space formed while being surrounded by the transmission surface 2350 and the speaker housing 2310 .
  • the vibration reducing member or the sound absorbing member is formed between the transmission surface 2350 and one surface of the second accommodating part 2103 (referring to FIG. 16), around the acoustic module 2330, and between the acoustic module 2330 and the rear surface. It may be disposed in the formed separation space DA.
  • the acoustic module 2330 specifically, the driving member is spaced apart from the second accommodating part 2103 and forms a separation space DA with a predetermined interval H.
  • the sound module 2330 is connected and contacted only with the speaker unit 2300, specifically, the transmission surface 2350, and the vibration generated in the sound module 2330 moves entirely to the transmission surface 2350, so that the transmission surface ( 2350) has an effect of easily transmitting sound downward.
  • sound generated by such vibration can be transmitted to the transmitting surface 2350, so that sound such as music and sound can be effectively transmitted to the user.
  • vibration generated from the transmission surface 2350 can be transmitted to the installation so that sound is transmitted to the outside. It has an effect that can be effectively delivered.
  • lighting may be provided through the light source unit 2200, and visual elements such as pictures, photos, and patterns may be provided through the transmission surface 2350, and vibration generated from the sound module 2330, specifically, the diaphragm may be transmitted.
  • the surface 2350 receives and vibrates, there is an effect of providing auditory elements such as sound and music.
  • the acoustic module 2330 specifically, the driving member has a predetermined distance H from the second accommodating part 2103 and forms a separation space DA therebetween. Therefore, vibration generated in the acoustic module 2330 is transmitted to the second accommodating part 2103, that is, the housing part 2100, and is prevented from being reduced, and the transmission surface 2350 through the diaphragm vibrating by receiving power from the driving member. ), it is possible to easily transmit the sound effect downward.
  • one side of the support portion 2370′ may be positioned in a space between the transmission surface 2350 and the second accommodating portion 2103, and the other side opposite thereto is in contact with the acoustic vibration module and the acoustic module ( 2330), and may include a support body 2371′ and a support bridge 2375′.
  • the support body 2371′ is in contact with the acoustic module 2330, specifically the drive member, and supports the drive member, and the inner circumferential surface of the support body 2371′ and the outer circumferential surface of the drive member are in surface contact. , It may be formed to correspond to the outer circumferential shape of the driving member so as to surround the driving member.
  • the support body 2371' may make surface contact with the drive member in a section formed along the circumference with respect to the center of the drive member, and the support body 2371' connected to the support bridge 2375'.
  • the other end opposite to one end of ) is separated and may be spaced apart at a predetermined interval.
  • the support body 2371' may be formed of a material capable of elastic deformation, and at one end of the support body 2371' connected to the support bridge 2375', a first support is provided in a direction away from the support bridge 2375'.
  • the main body (reference numeral not set) and the second support body (reference numeral not set) may be formed to extend.
  • the first supporting body and the second supporting body may contact and support different sections on the driving member, thereby improving the gripping force of the acoustic module 2330, specifically, the driving member.
  • the support body 2371 ′ may come into contact with the acoustic module 2330, specifically, the driving member, and support the acoustic module 2330 at one or more points.
  • the support body 2371 ′ may be in surface contact with the acoustic module 2330 and may surround and contact the acoustic module 2330, specifically the driving member.
  • a support body 2371′ and a support bridge 2375′ contact and support the driving member and may be spaced apart from the diaphragm. Since the support body 2371' and the support bridge 2375' are spaced apart from the diaphragm, the driving member that drives the diaphragm is stably supported and does not affect the vibration generated from the diaphragm.
  • the vibration generated from the diaphragm can be easily transmitted to the speaker unit 2300, specifically, the transmission surface 2350, and the sound due to the vibration generated from the diaphragm can be effectively transmitted to the outside through the vibration of the transmission surface 2350. There is an effect that can be delivered to the user in .
  • the support bridge 2375′ is connected to the support body 2371′, one side (left side of FIG. 17) is connected to the support body 2371′, and the other side opposite to it is connected to the transmission surface ( 2350) and one surface of the second accommodating part 2103 (the lower surface of FIG. 17).
  • the other side (right side of FIG. 17 ) of the support bridge 2375 ′ may be fixed to the speaker housing 2310 .
  • vibration generated in the sound module 2330 is not transmitted to the housing 2100, and a vibration reduction phenomenon that may occur due to transmission of vibration to the housing 2100 can be reduced or prevented. .
  • the sound module 2330 may be spaced apart from the housing part 2100, specifically, the second accommodating part 2103.
  • the second accommodating part 2103 may be spaced apart from the acoustic module 2330, specifically, the driving member, and may be spaced apart at a predetermined interval.
  • a separation space may be formed between the second accommodating part 2103 and the sound module 2330 .
  • the vibration process of the sound module 2330 can be efficiently performed through this separation space.
  • transmission of vibrations generated in the sound module 2330 to the second accommodating part 2103 can be reduced or prevented, and transmission of vibrations is concentrated on the transmission surface 2350, thereby increasing the efficiency of sound generation. can improve
  • a vibration reducing member or a sound absorbing member may be installed in the inner space formed while being surrounded by the transmission surface 2350 and the speaker housing 2310 .
  • the vibration reducing member or the sound absorbing member is formed between the transmission surface 2350 and one surface of the second accommodating part 2103 (the lower surface in FIG. 17), around the acoustic module 2330, and between the acoustic module 2330 and the rear surface. It can be placed in the formed separation space.
  • the acoustic module 2330 specifically, the driving member may be spaced apart from the second accommodating part 2103 at a predetermined interval to form a space.
  • the sound module 2330 is connected and contacted only with the speaker unit 2300, specifically, the transmission surface 2350, and the vibration generated in the sound module 2330 moves entirely to the transmission surface 2350, so that the transmission surface ( 2350) has an effect of easily transmitting sound downward.
  • sound generated by such vibration can be transmitted to the transmitting surface 2350, so that sound such as music and sound can be effectively transmitted to the user.
  • vibration generated from the transmission surface 2350 can be transmitted to the installation so that sound is transmitted to the outside. It has an effect that can be effectively delivered.
  • lighting may be provided through the light source unit 2200, and visual elements such as pictures, photos, and patterns may be provided through the transmission surface 2350, and vibration generated from the sound module 2330, specifically, the diaphragm may be transmitted.
  • the surface 2350 receives and vibrates, there is an effect of providing auditory elements such as sound and music.
  • the acoustic module 2330 specifically, the driving member is spaced apart from the second accommodating part 2103 at a predetermined interval and forms a space therebetween, thereby forming the acoustic module 2330. ) by preventing the vibration generated from being transmitted to the second accommodating part 2103, that is, the housing part 2100, from being reduced, and directly transmitting it to the transmission surface 2350 through the vibrating diaphragm receiving power from the driving member. Due to this, sound effects can be easily transmitted downward.
  • the speaker unit 2300 may further include a connecting member 2390.
  • the connecting member 2390 is disposed between the speaker housing 2310 and the shield 2105, and can fix the relative position of the speaker housing 2310 and the shield 2105, so that the speaker unit 2300 is connected to the housing. There is an effect of stably inserting and installing into the part 2100, specifically, the second accommodating part 2103 and fixing the position.
  • connection member 2390 has magnetic force and can prevent the speaker unit 2300 inserted into the housing unit 2100 from being separated.
  • the connection member 2390 is formed of a rubber material and increases friction between the housing unit 2100 and the speaker unit 2300 to prevent the speaker unit 2300 from being separated from the housing unit 2100. It is possible to implement various modifications, such as being able to prevent.
  • a support part 2370 ⁇ may include a support body 2371 ⁇ , a support bridge 2375 ⁇ , and an insertion member 2373 ⁇ . .
  • an insertion member 2373′′ may be disposed between the support body 2371′′ and the sound module 2330, specifically, the driving member 2331.
  • the insertion member 2373′′ may be formed to surround the side surface of the driving member 2331 and may be formed in a shape similar to a ring.
  • the insertion member 2373 ⁇ may be formed of various materials, and may be formed of a material having elastic deformability or a material having flexibility. As an optional embodiment, the insertion member 2373 ⁇ may be formed of a rubber-based material, a silicone-based material, or other resin-based material.
  • the support part 2370 ⁇ according to another embodiment of the present invention is similar to other embodiments except that the insertion member 2373 ⁇ is disposed between the support body 2371 ⁇ and the driving member 2331. Since the configuration, operation principle, and effect of the supporting portion 2370', the supporting body 2371', and the supporting bridge 2375' are the same, a detailed description thereof will be omitted to the extent that they overlap.
  • FIG. 20 is a cross-sectional view of an acoustic lighting device according to another embodiment of the present invention, as shown in FIG. 12 , based on II of FIG. 10 .
  • 21 is an exploded perspective view of a speaker unit according to another embodiment of the present invention.
  • an acoustic lighting device 3 includes a housing part 3100, a light source part 3200, a speaker part 3400, and a cover part 3600. can do.
  • the speaker unit 3400 is installed in the housing unit 3100 and may be spaced apart from the light source unit 3200.
  • the speaker unit may include a speaker housing 3410, a sound module 3430, a transmission surface 3450, and a space keeping unit 3470.
  • the speaker housing 3410 is connected to the housing part 3100, and may be connected to one surface of the second accommodating part 3103 formed in the housing part 3100 (referring to FIG. 20).
  • one side of the speaker housing 3410 facing the second accommodating portion 3103 (top surface in FIG. 20) is opened, but is not limited thereto, and is connected to the second accommodating portion 3103 in an unopened state.
  • Various modifications are possible, such as being.
  • an installation surface 3411 is formed on the speaker housing 3410, and at least one sound module 3430 may be installed on the installation surface 3411.
  • An installation hole 3412 into which the sound module 3430 can be installed may be formed on the installation surface 3411, and the sound module 3430 passes through the installation hole 3412 and is fixed to the speaker housing 3410.
  • a spacer 3470 may be coupled to the installation surface 3411 formed on the speaker housing 3410, and one side of the spacer 3470 is connected to the speaker housing 3410, specifically the installation surface 3411. and the other side opposite to this may be connected to the transmission surface 3450.
  • the acoustic module 3430 is spaced apart by a predetermined distance d between one end of the speaker housing 3410 (the lower end in FIG. 20) and the transmission surface 3450, and is formed between the distance d.
  • the sound (S) generated in ) can be effectively transmitted to the outside along the transmission surface 3450.
  • the space keeping unit 3470 may be installed in the center of the installation surface 3411 and the transmission surface 3450 .
  • the spacing maintaining part 3470 may be formed such that its cross-sectional area with respect to the central axis in the longitudinal direction (vertical direction in FIG. 21) increases as it goes from the speaker housing 3410 to the transmission surface 3450.
  • the sound (S) generated from the sound module 3430 can be transmitted from the center to the outside along the distance maintaining part 3470, and the center of the longitudinal direction (up-down direction in FIG. 21) toward the transmission surface 3450.
  • the sound S can be effectively transmitted radially to the outside along the outer circumferential surface of the spacer 3470.
  • the outer circumferential surface of the gap maintaining unit 3470 may be formed in a curved shape. However, it is not limited thereto, and the outer circumferential surface is formed flat in a polygonal shape, and the sound S generated from the sound module 3430 is formed to be inclined downward toward the transmission surface 3450. Various modified implementations are possible within the technical idea that can be transferred to the outside radially along the outer circumferential surface.
  • the speaker housing 3410 and the transmission surface 3450 are spaced apart by a preset distance d, and formed due to the distance d
  • the sound S may be transmitted to the outside through the space.
  • the sound module 3430 passes through the installation hole 3412 provided on the installation surface 3411 formed on the speaker housing 3410 and is fixed in position so that the sound module 3430 may be exposed to the outside. Since the face 3450 faces the installation surface 3411 on which the sound module 3430 is fixed, it is possible to prevent the sound module 3430 from being exposed to the outside, thereby increasing visual and aesthetic effects.
  • the sound lighting device 3 has a speaker unit 3400, specifically, an installation hole 3412 formed on an installation surface 3411 provided in a speaker housing 3410 for a sound module 3430. ), a part of the area is exposed to the outside, and a space keeping part 3470 having an inclined outer circumferential surface is disposed between the speaker housing 3410 and the transmission surface 3450, and the speaker housing 3410 and the transmission surface ( 3450) by a preset distance (d) and the acoustic lighting device according to an embodiment of the present invention, except that the sound (S) is transmitted to the outside through a space spaced apart by the distance (d). Since the configuration, operating principle, and effect of the housing unit 2100, the light source unit 2200, and the cover unit 2600 are the same as (2), a detailed description thereof will be omitted to the extent that they overlap.
  • FIG. 22 is a cross-sectional view of an acoustic lighting device according to another embodiment of the present invention, as shown in FIG. 12 , taken along the line II of FIG. 10 .
  • 23 is a perspective view of a speaker unit according to another embodiment of the present invention.
  • an acoustic lighting device 4 may include a housing part 4100, a light source part 4200, a speaker part 4500, and a cover part 4600.
  • the speaker unit 4500 is installed in the housing unit 4100 and may be spaced apart from the light source unit 4200 .
  • the speaker unit 4500 may include a speaker housing 4510, a sound module 4530, and a transmission surface 4550.
  • the speaker housing 4510 is connected to the housing part 4100, and may be connected to one surface of the second accommodating part 4103 formed in the housing part 4100 (the lower surface in FIG. 22).
  • one side of the speaker housing 4510 facing the second accommodating portion 4103 (top surface in FIG. 22) is opened, but is not limited thereto, and is connected to the second accommodating portion 4103 in an unopened state.
  • Various modifications are possible, such as being.
  • an installation surface 4511 is formed on the speaker housing 4510, and at least one sound module 4530 may be installed on the installation surface 4511.
  • An installation hole 4512 into which the sound module 4530 can be installed may be formed on the installation surface 4511, and the sound module 4530 passes through the installation hole 4512 and is fixed to the speaker housing 4510.
  • a through hole 4515 may be formed in a region corresponding to a sidewall of the speaker housing 4510 according to an embodiment of the present invention.
  • the through-hole portion 4515 may extend along a preset direction.
  • One side of the speaker housing 4510 according to an embodiment of the present invention (lower side in FIG. 22) may be opened, and a transmission surface 4550 may be connected to one side (lower side in FIG. 22) of the speaker housing 4510. .
  • the transmission surface 4550 faces the sound module 4530 installed on the installation surface 4511 formed on the speaker housing 4510 and is coupled to one end (lower end in reference to FIG. 22) of the speaker housing 4510, and transmits
  • the surface 4550 and the installation surface 4511 may be spaced apart by a predetermined distance, and a space may be formed between the installation surface 4511 and the transmission surface 4550 .
  • the sound (S) generated from the sound module 4530 is transmitted through the speaker housing 4510, the installation surface 4511, and the transmission surface ( In the space surrounded by 4550, it passes through the through hole 4515 and has an effect of being transmitted to the outside.
  • the sound module 4530 may be exposed to the outside, the transmission surface ( Since the sound module 4530 is disposed facing the installation surface 4511 on which the sound module 4530 is fixed, it is possible to prevent the sound module 4530 from being exposed to the outside, thereby increasing visual and aesthetic effects.
  • a through hole 4515 is formed on the side wall of a speaker housing 4510 and formed in the speaker housing 4510.
  • the acoustic module 4530 is fixed in position by passing through the installation hole 4512 provided on the installation surface 4511, and is installed due to the transmission surface 4550 facing the installation surface 4511 and coupled to the speaker housing 4510. Except for the fact that the sound (S) generated in the space formed between the surface 4511 and the transmission surface 4550 is effectively transmitted to the outside through the passage hole 4515 formed on the side wall of the speaker housing 4510. Since the acoustic lighting device 2 according to an embodiment of the present invention and the housing part 4100, the light source part 4200, and the cover part 4600 have the same configuration, operating principle, and effect, a detailed description to the extent that they overlap omit
  • an acoustic module is installed therein, the acoustic module is directly or indirectly connected to a speaker unit that may be formed in a box shape, specifically, a transmission surface facing the outside, and the transmission surface Through this, there is an effect of effectively transmitting the sound generated in the sound module to the outside.
  • the vibration generated in the diaphragm is transmitted to the vibration of the transmission surface, and the sound generated by such vibration can effectively transmit sounds such as music and sound to the user through the transmission surface. There is an effect.
  • the vibration generated from the sound module is transmitted as it is to the transmission surface, and depending on the material of the transmission surface, various sounds according to the sound range of the sound generated from the sound module can be effectively transmitted to the outside together with lighting. have.
  • visual elements such as lighting through the light source unit and pictures and photos that can be expressed on the transmission surface are provided to the user, and at the same time, as the transmission surface receives and vibrates the vibration generated from the sound module, specifically the diaphragm, sound and music There is an effect that can provide an auditory element such as.
  • the support part stably contacts and supports the sound module, specifically the driving member, vibration generated in the sound module is not transmitted to the housing part, but is directly transmitted to the transmission surface and effectively transmits sound to the outside. .
  • FIG. 24 is a perspective view illustrating an acoustic lighting device according to embodiments of the present invention.
  • 25 is a diagram illustrating a disassembled state of a speaker unit in a sound lighting device according to embodiments of the present invention.
  • 26 is a cross-sectional view of an acoustic lighting device according to an embodiment of the present invention based on line A-A' of FIG. 24 .
  • FIG. 27 is a diagram illustrating a state in which lighting and sound are provided in FIG. 26 .
  • the acoustic lighting device 5 includes a speaker unit 5100, a lighting unit 5200, a connection unit 5300, a wire unit 5400, and a control unit (not shown). time), a sensor unit (not shown) may be included.
  • a speaker unit 5100 is installed with a sound module 5101 generating sound S, and may include a speaker housing 5110. .
  • the speaker housing 5110 according to an embodiment of the present invention is disposed outside the sound module 5101 and may be disposed inside the lighting unit 5200 to be described later.
  • the sound module 5101 generates sound S, and may generate vibration for sound S by using one or more driving members.
  • the sound module 5101 may receive power from the outside and generate sound S by one or more driving members. Since the detailed configuration of the sound module 5101 is well known, detailed description thereof will be omitted.
  • the sound module 5101 is installed singly, but is not limited thereto, and a plurality of sound modules are installed inside the speaker unit 5100, specifically, the speaker housing 5110, and various modifications such as generating sound (S) are carried out. is possible
  • a sound module 5101 may be disposed on one side (lower side of FIG. 26 ) of a speaker housing 5110 .
  • the sound module 5101 is disposed on the lower side of the speaker housing 5110. If a hole 5103 to be described later is not formed on the lower side of the speaker housing 5110, the speaker housing 5110 The sound S can be transmitted from the lower side to the upper side inside the speaker housing 5110 through the first space A1, which is the internal space of ), and the user under the sound lighting device 5 installed on the ceiling or the like. Since the sound S is not directly transmitted to the user, but is transmitted toward the ceiling or the like, stable sound S can be provided to the user.
  • the sound module 5101 is disposed on the lower side of the speaker housing 5110 (refer to FIG. 26), but is not limited thereto, and the sound module 5101 is located on the upper side within the technical concept of being located inside the speaker housing 5110. (refer to FIG. 26), and various modifications are possible.
  • the speaker housing 5110 extends from a first axis AX1, specifically, an axis formed along the vertical direction (refer to FIG. 26) as a central axis in the longitudinal direction.
  • the speaker unit 5100 has a hollow interior and has a cylindrical shape with constant inner and outer diameters along a first axis AX1, which is a central axis in the longitudinal direction. can be formed
  • the speaker unit 5100 may be formed of a metal or non-metal material, and the material is not limited.
  • the speaker housing 5110 extends with the first axis AX1 as the central axis in the longitudinal direction, the sound generated in the sound module 5101 installed inside the speaker housing 5110
  • the sound (S) is transmitted in the vertical direction, and the sound (S) can be transmitted to the external space and the user.
  • the speaker unit 5100 may be disposed at the center of the lighting unit 5200 to be described later, and in the lighting unit 5200 disposed outside the speaker housing 5110, the light source (L) can be generated to transmit light to the outside.
  • the sound (S) generated by the sound module 5101 is transmitted in the vertical direction, and the light and sound (S) are transmitted to the user. There is an effect that can provide at the same time.
  • control unit is electrically connected to the speaker unit 5100, specifically, the sound module 5101 and the lighting unit 5200 installed in the speaker housing 5110, and the sound module 5101 Alternatively, an electrical signal may be independently transmitted to the lighting unit 5200 to independently provide a light source (light, L) or sound (S) to the user.
  • L light source
  • S sound
  • At least one hole 5103 may be formed in a speaker unit 5100, specifically, a speaker housing 5110 according to an embodiment of the present invention.
  • the hole 5103 formed in the speaker housing 5110 is based on the first axis AX1, which is the longitudinal central axis of the speaker housing 5110. It can be formed on the top or bottom (refer to FIG. 26).
  • the hole 5103 may be formed in the lower part or upper part of the speaker housing 5110, or may be formed in both the lower part and the upper part. Due to the formation of the hole 5103, there is an effect of enabling sound (S) generated in the sound module 5101 installed inside the speaker housing 5110 to be easily transmitted to the outside.
  • S sound
  • the hole portion 5103 is provided to reduce the external transfer amount of the sound (S) generated from the sound module 5101 installed inside the speaker housing 5110 and to resonate inside the speaker housing 5110.
  • S the sound generated from the sound module 5101 installed inside the speaker housing 5110
  • Various modifications are possible, such as not being formed.
  • a speaker unit 5100 specifically a speaker housing 5110 according to an embodiment of the present invention may be connected to a wire unit 5400 to be described later.
  • one end (upper part based on FIG. 26) is fixed to the inner wall of a building where the acoustic lighting device 5 is installed, such as a ceiling, and the other end (FIG. 26) opposed thereto
  • the reference lower end may be fixed to the speaker housing 5110.
  • the wire unit 5400 is connected to the speaker housing 5110, the speaker unit 5100, the connection unit 5300 connected to the speaker unit 5100, and the lighting unit 5200 are set in advance. There is an effect that can be stably fixed to the position, specifically the ceiling side.
  • the wire unit 5400 may include a wire, receive power from the outside and operate the sound module 5101 or the lighting unit 5200, specifically, the light source (L). It is possible to supply power to the lighting body 5230 that generates.
  • the wire unit 5400 according to an embodiment of the present invention is formed singly, but is not limited thereto, and may be provided in plurality, and each end of the plurality of wire units 5400 Various modifications are possible, such as the part being fixed to the inner wall of the building where the sound lighting device 5 is installed, such as the ceiling, and the other end opposite to this being fixed to the speaker housing 5110.
  • the speaker unit 5100 may be disposed inside the lighting unit 5200, and the speaker unit 5100 and the lighting unit 5200 may be spaced apart from each other. have.
  • the speaker unit 5100 according to an embodiment of the present invention, specifically, the speaker housing 5110 is sectioned into a second axis orthogonal to the first axis AX1, which is the central axis in the longitudinal direction of the speaker housing 5110, When the speaker unit 5100 and the lighting unit 5200 are on the same plane, the centers of the speaker unit 5100 and the lighting unit 5200 may coincide.
  • the speaker unit 5100 may be disposed at the center, and the lighting unit 5200 may surround the speaker unit 5100 and be disposed outside the speaker unit 5100 .
  • the outer surface of the speaker unit 5100 according to an embodiment of the present invention, specifically, the speaker housing 5110, and the inner surface of the lighting unit 5200 to be described later may be spaced apart by a preset distance.
  • the speaker unit 5100 according to an embodiment of the present invention is disposed inside the lighting unit 5200, specifically at the center side of the lighting unit 5200, so that the speaker unit 5100, specifically The sound (S) generated in the sound module 5101 disposed inside the speaker housing 5110 is transmitted in the vertical direction from the center of the lighting unit 5200 through the speaker unit 5100, and more sound (S) is transmitted to the user.
  • S sound generated in the sound module 5101 disposed inside the speaker housing 5110
  • a speaker unit 5100 according to an embodiment of the present invention can be connected to a connection unit 5300 to be described later.
  • connection unit 5300 One end of the connection unit 5300 is connected to the speaker unit 5100, and the other end opposite to the connection unit 5300 is connected to the lighting unit 5200, thereby maintaining a distance between the speaker unit 5100 and the lighting unit 5200. ) can be prevented from falling away from the speaker unit 5100 and falling into a space where the acoustic lighting device 5 is installed.
  • connection units 5300 may be provided, and the speaker unit 5100, specifically, the speaker housing 5110 may have a conformal angle based on a longitudinal central axis of the speaker housing 5110. can be placed.
  • connection units 5300 are disposed and both ends are connected to the speaker housing 5110 and the lighting unit 5200, respectively, the positions of the speaker unit 5100 and the lighting unit 5200 can be fixed more firmly.
  • the lighting unit 5200 according to an embodiment of the present invention is disposed outside the speaker unit 5100, radiates a light source L to the outside, and the acoustic lighting device 5 Lighting can be provided to the installed space and users.
  • a lighting unit 5200 may include a lighting housing 5210, a lighting body 5230, and a lighting cover 5250.
  • the lighting housing 5210 has a hollow interior and may be disposed outside the speaker unit 5100 . Inside the lighting housing 5210, a lighting body 5230 to be described later may be disposed.
  • the lighting housing 5210 may have one side (lower side based on FIG. 26) opened, and a lighting cover 5250 to be described later may be a lighting housing 5210 It is connected to and may cover the one side of the lighting housing 5210 that is opened.
  • a lighting housing 5210 may be formed in a circular shape.
  • the lighting housing 5210 is formed in a ring shape, and at the center of the lighting housing 5210 is a speaker unit 5100, specifically, a first axis AX1, which is a longitudinal central axis of the speaker housing 5110. may intersect.
  • the lighting housing 5210 is configured in advance from the first axis AX1, which is the central axis in the longitudinal direction of the speaker unit 5100, specifically, the speaker housing 5110. It may include an inner circumferential surface spaced apart by a set distance.
  • the speaker unit 5100 may be located at the center of a circle formed along the inner circumferential circumference of the lighting housing 5210, and provide lighting to the user by the light source L generated from the lighting unit 5200. While doing so, inside the lighting unit 5200, the sound lighting device 5 is installed to emit sound S generated from the speaker unit 5100 along the first axis AX1, which is the central axis of the longitudinal direction of the speaker unit 5100. It can provide effective space and users.
  • the lighting housing 5210 has a hollow interior and a center at which a first axis AX1, which is a longitudinal central axis of the speaker unit 5100, intersects. , It may be formed in a circular shape having an inner circumference by a preset distance from the center.
  • a speaker unit 5100 specifically, a speaker housing 5110 capable of providing sound (S) to a user is disposed at the center of the lighting housing 5210, and the outer circumference of the speaker housing 5110 Due to the arrangement of the lighting housing 5210 providing lighting along, it can be formed in a polygonal shape such as a triangular shape or a quadrangular shape within a technical idea capable of providing lighting toward a user from the outside of a space providing sound (S). Various modifications are possible.
  • another lighting body 5230 is installed inside a hollow lighting housing 5210, and receives power from the outside to generate a light source L. It is possible to provide lighting to the user and the space in which the acoustic lighting device 5 is installed.
  • the lighting body 5230 may be formed in a ring shape to correspond to the shape of the lighting housing 5210, and a plurality of light emitting elements are spaced apart from each other at preset intervals inside the lighting housing 5210. It is spaced apart and various modifications are possible, such as generating a light source (L).
  • L light source
  • the lighting cover 5250 can cover one side of the lighting housing 5210, and the lower side of the lighting housing 5210 that is specifically opened (Fig. 26) can be covered.
  • the lighting cover 5250 may be formed in a plate shape and may be formed of a translucent material.
  • the lighting cover 5250 is detachable from the lighting housing 5210, so that the user can replace the lighting cover 5250 with a different transparency according to convenience.
  • connection unit 5300 connects the lighting unit 5200 and the speaker unit 5100, one end of which is the speaker unit 5100, specifically the speaker housing
  • the other end that is connected to 5110 and opposite to this may be connected to the lighting unit 5200, specifically the lighting housing 5210.
  • the distance between the speaker housing 5110 and the lighting housing 5210 can be maintained by a preset distance due to the connection unit 5300 .
  • connection unit 5300 is connected to the speaker housing 5110 and the lighting housing 5210 at both ends, the fastening force between the lighting unit 5200 and the speaker unit 5100 can be improved, and the lighting unit 5200 is connected to the speaker unit. 5100, it is possible to prevent the sound lighting device 5 from falling down in the space where it is installed or to the user.
  • connection units 5300 may be provided, and the plurality of connection units 5300 is a first axis that is a central axis in the longitudinal direction of the speaker unit 5100. It may be conformally arranged along the circumference of the speaker unit 5100, specifically, the speaker housing 5110 based on (AX1).
  • the speaker unit 5100 disposed inside the lighting unit 5200 by connecting the plurality of connection units 5300 to the speaker unit 5100, specifically the speaker housing 5110 and the lighting unit 5200, specifically the lighting housing 5210. ) can be stably maintained.
  • the light source L generated by the lighting unit 5200 may provide illumination to the user from the outside based on the first axis AX1, which is the central axis in the longitudinal direction of the speaker unit 5100, and the lighting unit 5200 In the inner side of the first axis (AX1), there is an effect of providing sound (S) to the user from the speaker unit 5100 along the direction.
  • the wire unit 5400 may be formed of a metal material, thereby securing rigidity and stably maintaining a separation distance between the speaker unit 5100 and the lighting unit 5200. .
  • connection unit 5300 both ends of the connection unit 5300 are connected to the speaker unit 5100 and the lighting unit 5200, respectively, and within the technical concept of preventing the lighting unit 5200 from being separated from the speaker unit 5100, non-metallic
  • connection unit 5300 is connected to the speaker unit 5100 and the lighting unit 5200, respectively, and within the technical concept of preventing the lighting unit 5200 from being separated from the speaker unit 5100, non-metallic
  • Various modifications are possible, such as being formed of a material.
  • connection part 5300 may be formed in a tubular shape with a hollow inside, and the inside of the connection part 5300 receives power from the outside to form a lighting unit 5200, specifically a lighting body 5230.
  • a wire (not shown) capable of supplying power may be disposed.
  • the wire unit 5400 according to an embodiment of the present invention is connected to the speaker unit 5100, and may be specifically connected to the speaker housing 5110.
  • one end (upper part based on FIG. 26) is fixed to the inner wall of a building where the acoustic lighting device 5 is installed, such as a ceiling, and the other end (FIG. 26) opposed thereto
  • the reference lower end may be fixed to the speaker housing 5110.
  • the wire unit 5400 is connected to the speaker housing 5110, the speaker unit 5100, the connection unit 5300 connected to the speaker unit 5100, and the lighting unit 5200 are set in advance. There is an effect that can be stably fixed to the position, specifically the ceiling side.
  • the wire unit 5400 may include a wire, receive power from the outside and operate the sound module 5101 or the lighting unit 5200, specifically, the light source (L). It is possible to supply power to the lighting body 5230 that generates.
  • the wire unit 5400 according to an embodiment of the present invention is formed singly, but is not limited thereto, and may be provided in plurality, and each end of the plurality of wire units 5400 Various modifications are possible, such as the part being fixed to the inner wall of the building where the sound lighting device 5 is installed, such as the ceiling, and the other end opposite to this being fixed to the speaker housing 5110.
  • a control unit (not shown) may be installed inside the speaker unit 5100 according to an embodiment of the present invention, and the control unit may include a sound module 5101 installed inside the speaker housing 5110. can be electrically connected to
  • control unit can transmit an electrical signal to the acoustic module 5101 to drive the acoustic module 5101, and the acoustic lighting device according to an embodiment of the present invention generates sound (S) in the acoustic module 5101. (5) can deliver the sound (S) to the user and the space where it is installed.
  • control unit may be electrically connected to the lighting unit 5200, specifically the lighting body 5230.
  • control unit can transmit an electrical signal to the lighting body 5230 to drive the lighting body 5230, and the lighting body 5230 generates a light source L to generate an acoustic lighting device according to an embodiment of the present invention.
  • (5) has the effect of delivering sound (S) to the space where it is installed and to the user.
  • a sensor unit may be installed in at least one of the speaker unit 5100 and the lighting unit 5200 according to an embodiment of the present invention.
  • the sensor unit is electrically connected to the control unit and can detect an object, user, movement, etc. in a pre-set area in a space where the acoustic lighting device 5 according to an embodiment of the present invention is installed.
  • the sensor unit according to an embodiment of the present invention may be formed of a module sensor capable of detecting a motion of a user or the like.
  • an electrical signal may be transmitted to the control unit.
  • the control unit receives an electrical signal from the sensor unit, specifically, a user detection signal for detecting that a user is in a preset area, and transmits the electrical signal to the sound module 5101 installed in the speaker housing 5110 so that the sound module ( 5101) can adjust the volume of the sound (S).
  • control unit may reduce the size of the sound S by transmitting an electrical signal to the sound module 5101, thereby providing a user with a relatively small sound S near the space where the sound lighting device 5 is installed. can be provided, and when there are a plurality of users, it is possible to prevent the sound S from interfering with a conversation.
  • control unit receives an electric signal from the sensor unit, specifically a user detection signal for detecting that the user is in a preset area, and transmits the electrical signal to the lighting unit 5200, specifically the lighting body 5230, so that the lighting body The size of the light source L generated from 5230 can be adjusted.
  • control unit transmits an electrical signal to the lighting body 5230 to adjust the size of the light source L so as to have an illuminance within a preset range, whereby the acoustic lighting device 5 is installed near the space There is an effect of providing a degree of illumination that the user can feel comfortable with.
  • the acoustic lighting device 5 includes a speaker unit 5100, a lighting unit 5200, a connection unit 5300, a wire unit 5400, a control unit, and a sensor unit.
  • a speaker unit 5100 can include a speaker unit 5100, a lighting unit 5200, a connection unit 5300, a wire unit 5400, a control unit, and a sensor unit.
  • a sensor unit can include
  • a speaker unit 5100 is installed with a sound module 5101 generating sound S, and may include a speaker housing 5110.
  • the speaker housing 5110 may be formed to extend in a direction perpendicular to the ground (a vertical direction in FIG. 26) as a first axis AX1.
  • the interior of the speaker housing 5110 is formed by extending in the direction of the first axis AX1 perpendicular to the ground (vertical direction in FIG. 27) according to an embodiment of the present invention.
  • the sound (S) generated from the sound module 5101 installed in the speaker housing 5110 is transmitted in the upward direction (refer to FIG. 27) through the first space A1 formed as a hollow inside the speaker housing 5110, and the speaker housing ( 5110) is transmitted to the outside through the upper end, and the sound S may be delivered to a user and a space in which the acoustic lighting device 5 is installed.
  • one side where the sound module 5101 is installed (lower side in FIG. 27) may be closed, and the other side (upper side in FIG. 27) opposite to this side may be opened.
  • the sound (S) generated in the sound module 5101 can pass through the upper end of the speaker housing 5110 that is opened through the first space A1 formed inside the speaker housing 5110 and transmitted to the outside. .
  • At least one hole 5103 may be formed to partially open the upper end of the speaker housing 5110, and sound generated by the sound module 5101 installed inside the speaker housing 5110. (S) may pass through the hole 5103 formed in the speaker housing 5110 and be transmitted to the outside.
  • a user may be present on the lower side of the speaker housing 5110 (refer to FIG. 27) according to an embodiment of the present invention, and sound is generated by the sound module 5101 installed inside the speaker housing 5110.
  • the sound (S) is not directly delivered to the user, but is transmitted in one direction (upper side in FIG. It has the effect of transmitting sound (S).
  • the lighting unit 5200 according to an embodiment of the present invention is disposed outside the speaker unit 5100 and radiates a light source L to the outside, the lighting housing 5210, A lighting body 5230 and a lighting cover 5250 may be included.
  • the lighting housing 5210 has a hollow interior, and the speaker unit 5100 is based on a first axis AX1, which is a central axis in the longitudinal direction of the speaker unit 5100. ) It may be formed extending along the circumference so as to be disposed outside of.
  • One side of the lighting housing 5210 according to an embodiment of the present invention may be opened, and thus, a light source (L) generated from the lighting body 5230 installed inside the lighting housing 5210 ) is transferred to the one side (lower side in FIG. 27), and lighting can be provided to the user.
  • L light source
  • lighting is provided to one side of the sound lighting device 5 installed on the ceiling (lower side in FIG. 27) to secure the user's field of view, and the other side (upper side in FIG. 27) opposite to this is provided with a speaker unit.
  • the sound (S) generated by the sound module (5101) installed inside the 5100 is transmitted, and the sound (S) is not directly transmitted toward the user, but the sound (S) is relatively stably transmitted to the user. There is an effect that can be conveyed.
  • a lighting cover 5250 covers one open side (lower side of FIG. 27) of the lighting housing 5210, and is formed in a plate shape and having different transparency. It can be.
  • the speaker unit extends in the direction of the first axis AX1 by connecting the speaker unit 5100 and the lighting unit 5200 with the connection unit 5300 according to an embodiment of the present invention. There is an effect of allowing the lighting unit 5200 to be disposed outside of 5100 while maintaining a spaced state by a preset distance.
  • the wire unit 5400 is connected to the speaker unit 5100, and specifically, one end (upper end based on FIG. 27) is installed in a ceiling or the like, and thus The opposite end is connected to the speaker unit 5100, specifically the speaker housing 5110, and the position of the speaker unit 5100 can be fixed.
  • the wire unit 5400 may receive power from the outside and supply power to the sound module 5101 and the lighting body 5230 installed in the speaker unit 5100 .
  • the wire part 5400 fixes the position of the speaker part 5100
  • the positions of the connection part 5300 connected to the speaker part 5100 and the lighting part 5200 can be fixed, and the position of the present invention can be fixed at a preset position.
  • the sound generated from the sound module 5101 (S ) is transmitted along a preset direction (from the lower side to the upper side in FIG. 27 ) and transmitted to the outside of the speaker unit 5100 to provide sound (S) to the user.
  • the light source L is generated from the lighting unit 5200 disposed outside the speaker unit 5100 and extending along the circumference with respect to the first axis AX1, which is the central axis in the longitudinal direction of the speaker unit 5100.
  • a light may be provided to the user.
  • connection unit 5300 both ends of the connection unit 5300 are connected to the speaker unit 5100 and the lighting unit 5200, respectively, and the speaker unit 5100 and the lighting unit 5200 can be spaced apart by a preset distance, and the lighting unit 5200 is connected to the speaker unit 5200. Separation from the unit 5100 can be prevented.
  • the sound lighting device 5 can simultaneously provide lighting and sound S, there is an effect of improving user convenience.
  • FIG. 28 is a cross-sectional view of an acoustic lighting device according to another embodiment of the present invention based on line A-A' of FIG. 24 .
  • FIG. 29 is a diagram illustrating a state in which lighting and sound are provided in FIG. 28 .
  • the acoustic lighting device 6 includes a speaker unit 6100, a lighting unit 6200, a connection unit 6300, and a wire unit 6400. ), a control unit, and a sensor unit.
  • the acoustic lighting device 6 includes the acoustic lighting device 5 and the speaker unit 6100 according to an embodiment of the present invention, specifically Since there is a difference in the configuration of the sealing portion 6130, hereinafter, the configuration of the sealing portion 6130 will be mainly described.
  • a speaker unit 6100 according to another embodiment of the present invention is installed with a sound module 6101 generating sound S, and a speaker housing 6110, sealed A portion 6130 may be included.
  • the speaker housing 6110 is disposed outside the sound module 6101 and may be disposed inside the lighting unit 6200 .
  • the sound module 6101 generates sound S, and may generate vibration for sound S by using one or more driving members.
  • the sound module 6101 may receive power from the outside and generate sound S by one or more driving members.
  • the sound module 6101 is installed singly, it is not limited thereto, and a plurality of sound modules 6100 are installed inside the speaker unit 6100, specifically, the speaker housing 6110, and various modifications such as generating sound (S) are carried out. is possible
  • the sound module 6101 may be disposed on one side (lower side of FIG. 26 ) of the speaker housing 6110, and specifically, the inner side of the sealing part 6130 installed inside the speaker housing 6110. can be installed on
  • a sound module 6101 may be inside a sealing part 6130 disposed inside a speaker housing 6110 .
  • the acoustic module 6101 stays in the second space (A2), which is the inner space of the sealing part 6130 to be described later, and the speaker housing 6110 Sound (S) can be transmitted to the external space and the user of the.
  • the sound (S) is transmitted to the second space (A2), which is the inner space of the sealing part 6130, separated from the speaker unit 6100, specifically, the first space (A1), which is the inner space of the speaker housing 6110, .
  • the sound (S) is not directly transmitted to the user under the acoustic lighting device 6 installed on the ceiling, etc., but the inside of the speaker unit 6100, specifically the second inner space of the sealing unit 6130. Since it is transmitted through vibration, ringing, etc. in the space A2, it is possible to provide the sound S with a sense of stability to the user.
  • the sealing part 6130 according to an embodiment of the present invention is installed inside the speaker housing 6110, and divides the internal space of the speaker housing 6110 into a plurality of areas.
  • the inside of the speaker housing 6110 is hollow, and a hollow space is formed so that the sound generated in the sound module 6101 can be transmitted to the outside. Due to being disposed inside, the entire space of the speaker housing 6110 can be divided into two areas.
  • the inner space of the sealing part 6130 having a hollow inside is the second space A2, and the second space A2 is the inner space of the sealing part 6130 in the inner space of the speaker housing 6110. ) may be defined as the first space A1.
  • a sealing unit 6130 is disposed inside a speaker housing 6110, and a sound module installed inside the sealing unit 6130 ( 6101) is mostly accommodated in the second space A2, which is the inner space of the sealing part 6130, and through this, the sound lighting device 6, specifically, the outer space of the speaker unit 6100 and There is an effect of transmitting sound (S) to the user.
  • the inner space of the speaker housing 6110 is partitioned, and the sealing portion 6130 having a hollow inside is the speaker housing ( 6110), the internal space of the speaker housing 6110 is divided into a first space A1 and a second space A2, and the sound S generated from the sound module 6101 is transmitted to the sealing part ( Except for being accommodated in the second space A2 of 6130), the acoustic lighting device 5 according to an embodiment of the present invention, the lighting unit 6200, the connection unit 6300, the wire unit 6400, the control unit, Since the configuration, operating principle, and effect of the sensor unit are the same, a detailed description thereof will be omitted to the extent of overlapping therewith.
  • FIG. 30 is a cross-sectional view of an acoustic lighting device according to another embodiment of the present invention based on line A-A' of FIG. 24 .
  • FIG. 31 is a diagram illustrating a state in which lighting and sound (S) are provided in FIG. 30 .
  • an acoustic lighting device 7 includes a speaker unit 7100, a lighting unit 7200, a connection unit 7300, and a wire unit ( 7400), a control unit, and a sensor unit.
  • an acoustic lighting device 7 includes the acoustic lighting device 5 and a speaker unit 7100 according to an embodiment of the present invention, specifically Therefore, since there is a difference in the configuration of the sealing unit 7130, the configuration of the sealing unit 7130 will be mainly described below.
  • a speaker unit 7100 may include a speaker housing 7110 and a sealing unit 7130.
  • the speaker housing 7110 is disposed outside the sound module 7101 and inside the lighting unit 7200, and may extend with respect to the first axis AX1, which is a central axis in the longitudinal direction.
  • the interior of the speaker housing 7110 is hollow, and the sound S generated from the acoustic module 7101 is transmitted along the first axis AX1 direction, and is transmitted to the external space of the acoustic lighting device 7 and to the user. can be conveyed
  • the sealing part 7130 according to another embodiment of the present invention is installed inside the speaker housing 7110, has a hollow interior, and can cover the sound module 7101.
  • a sealing unit 7130 may include a sealing housing 7131 and a vibration unit 7133.
  • the sealing housing 7131 forms the exterior of the sealing part 7130, and is disposed outside the sound module 7101 disposed on one side (lower side in FIG. 30) of the speaker housing 7110, and the sound module 7101 can cover
  • the airtight housing 7131 may partition the inner space of the speaker housing 7110 into a plurality of spaces.
  • the sealed housing 7131 divides the inner space of the speaker housing 7110 into two areas, the inner space of the sealed housing 7131 is defined as the second space A2, and the inside of the speaker housing 7110 Among the spaces, the space formed between the inner surface of the speaker housing 7110 and the outer surface of the airtight housing 7131 may be defined as the first space A1.
  • the sound (S) generated from the sound module 7101 is not directly transferred to the outside along the first axis AX1, which is the central axis in the longitudinal direction, but is transmitted to the second space A2, which is the inner area of the sealed housing 7131. ), and can be effectively transmitted to the external space of the first space A1 and the speaker housing 7110 and to the user through the vibration unit 7133 to be described later.
  • the vibrating unit 7133 is installed in the sealed housing 7131 and may be disposed to vibrate by sound S generated from the acoustic module 7101 .
  • the vibration unit 7133 may be formed in a plate shape, and one side faces the second space A2, which is the inner space of the sealed housing 7131, and thus The opposite surface faces the first space A1, which is the inner space of the speaker housing 7110.
  • the vibration unit 7133 is directed toward the first space A1 and the second space A2 on both sides (left and right sides in FIG. 31) on one surface of the sealed housing 7131, respectively, and
  • sound S is generated from the sound module 7101 installed in space A2
  • vibration of the vibrating unit 7133 vibrating by the sound S causes the second space A2 to first space A1.
  • a stable bass sound can be transmitted to the external space of the acoustic lighting device 7 and to the user.
  • the vibration unit 7133 extends in parallel with the first axis AX1 and vibrates in the left and right directions (refer to FIG. 31 ), but is not limited thereto, and the first axis AX1 ) and various modifications are possible, such as being installed in the sealed housing 7131 so as to vibrate in the vertical direction (refer to FIG. 31).
  • the acoustic lighting device 7 relates to the specific configuration of the sealing part 7130, and the sealing housing 7131 forming the second space A2. ), and includes a vibrating unit 7133 arranged to vibrate on one surface of the sound module 7101, and the vibrating unit 7133 moves in a preset direction (left-right direction based on FIG. 31) by the sound S generated from the sound module 7101.
  • the present invention except that the sound (S) can be transmitted from the second space (A2) to the first space (A1) while vibrating, and the sound (S) can be transmitted to the external space of the speaker housing 7110 and to the user.
  • the acoustic lighting device 5 Since the acoustic lighting device 5 according to an embodiment has the same configuration, operating principle, and effect of the lighting unit 7200, the connection unit 7300, the wire unit 7400, the control unit, and the sensor unit, detailed descriptions will be omitted in the overlapping range. .
  • FIG. 32 is a cross-sectional view of an acoustic lighting device according to another embodiment of the present invention based on line A-A' of FIG. 24 .
  • FIG. 33 is a diagram illustrating a state in which lighting and sound (S) are provided in FIG. 32 .
  • an acoustic lighting device 8 includes a speaker unit 8100, a lighting unit 8200, a connection unit 8300, a wire unit 8400, It may include a control unit and a sensor unit.
  • the acoustic lighting device 8 includes the configuration of the acoustic lighting device 7 and the sealing portion 8130 shown in FIGS. 30 and 31. Since there is a difference, hereinafter, the configuration of the sealing unit 8130 will be mainly described.
  • a speaker unit 8100 may include a speaker housing 8110 and a sealing unit 8130.
  • the speaker housing 8110 is disposed outside the sound module 8101 and inside the lighting unit 8200, and may extend with respect to a first axis AX1, which is a central axis in the longitudinal direction.
  • the inside of the speaker housing 8110 is hollow, the sound S generated from the sound module 8101 is transmitted along the first axis AX1 direction (from the bottom to the top in FIG. 33), and the sound lighting device It can be delivered to the external space and user of (8).
  • the sealing part 8130 according to another embodiment of the present invention is installed inside the speaker housing 8110, and the inside is hollow and can cover the sound module 8101. .
  • a sealing unit 8130 may include a sealing housing 8131 and a vibration unit 8133.
  • the sealing housing 8131 forms the exterior of the sealing part 8130, and is disposed outside the sound module 8101 disposed on one side (lower side in FIG. 32) of the speaker housing 8110, and the sound module 8101 can cover
  • the airtight housing 8131 may partition the inner space of the speaker housing 8110 into a plurality of spaces.
  • the sealed housing 8131 divides the inner space of the speaker housing 8110 into two areas, the inner space of the sealed housing 8131 is defined as the second space A2, and the inside of the speaker housing 8110 Among the spaces, the space formed between the inner surface of the speaker housing 8110 and the outer surface of the airtight housing 8131 may be defined as the first space A1.
  • the sound (S) generated from the sound module 8101 is not directly transmitted to the outside along the first axis AX1, which is the central axis in the longitudinal direction, but is transmitted to the second space A2, which is the inner area of the sealed housing 8131. ), and through the vibration unit 8133, the first space A1 and the external space of the speaker housing 8110 and the user can be effectively transmitted.
  • the vibration unit 8133 is installed in the airtight housing 8131 and may be disposed to vibrate by sound S generated from the sound module 8101 .
  • the vibrating unit 8133 may be formed in a plate shape, one side facing the second space A2, which is the inner space of the airtight housing 8131, and the other side opposite to the second space A2, which is the inner space of the speaker housing 8110. It is facing Space 1 (A1).
  • a plurality of vibration units 8133 may be provided, and may be disposed facing each other.
  • the plurality of vibration units 8133 may be arranged symmetrically with respect to the first axis AX1, which is the central axis of the longitudinal direction of the speaker housing 8110 and the airtight housing 8131.
  • a plurality of vibrating units 8133 are arranged to face the first space A1 on the outside and the second space A2 on the inside on one surface of the sealed housing 8131, respectively.
  • Sound S When sound (S) is generated from the sound module 8101 installed in the second space (A2), which is the inner space of the airtight housing 8131, the plurality of vibration units 8133 vibrate by the sound (S). , Sound S may be transmitted from the second space A2 to the first space A1 by vibration of the plurality of vibrating units 8133 .
  • a plurality of vibrating parts 8133 are installed in the sealed housing 8131, and a stable bass sound can be transmitted to the external space of the acoustic lighting device 8 and to the user.
  • a pair of vibrating units 8133 are provided and arranged symmetrically and conformally with respect to the first axis AX1, which is the central axis in the longitudinal direction of the speaker housing 8110 and the sealed housing 8131, but is not limited thereto. Instead, three or more are provided, and various modifications such as equiangular arrangement along the circumference of the outer circumferential surface of the sealed housing 8131 with the first axis AX1 as the center are possible.
  • the acoustic lighting device 8 relates to the specific configuration of the sealing part 8130, and the sealing housing 8131 forming the second space A2. ), and includes a vibrating unit 8133 arranged to vibrate on one surface of the vibrating unit 8133, and a plurality of such vibrating units 8133 are provided, and the first axis ( AX1), the plurality of vibrators 8133 vibrate in a preset direction (left and right directions based on FIG.
  • the sound S generated from the sound module 8101 and vibrate in the second space According to one embodiment of the present invention, except that the sound (S) is transmitted from (A2) to the first space (A1), and the sound (S) can be transmitted to the external space of the speaker housing 8110 and to the user. Since the acoustic lighting device 5 and the lighting unit 8200, the connection unit 8300, the wire unit 8400, the control unit, and the sensor unit have the same configuration, operation principle, and effect, detailed descriptions are omitted to the extent that they overlap.
  • the acoustic lighting device can provide lighting, that is, light source L and sound S at the same time, so that user convenience can be improved.
  • the sound S generated from the sound module 8101 is transmitted along a preset direction (from the lower side to the upper side) and can be transmitted to the outside of the speaker unit 8100 to provide sound (S) to the user.
  • the light source L is generated from the lighting unit 8200 disposed outside the speaker unit 8100 and extending along the circumference with respect to the first axis AX1, which is the central axis in the longitudinal direction of the speaker unit 8100. Light may be provided to the user.
  • connection unit 8300 both ends of the connection unit 8300 are connected to the speaker unit 8100 and the lighting unit 8200, respectively, and the speaker unit 8100 and the lighting unit 8200 can be spaced apart by a preset distance, and the lighting unit 8200 is connected to the speaker unit 8200. Separation from the unit 8100 can be prevented.
  • connection of lines or connecting members between the components shown in the drawings are examples of functional connections and / or physical or circuit connections, which can be replaced in actual devices or additional various functional connections, physical connection, or circuit connections.
  • connection of lines or connecting members between the components shown in the drawings are examples of functional connections and / or physical or circuit connections, which can be replaced in actual devices or additional various functional connections, physical connection, or circuit connections.
  • essential or important it may not necessarily be a component necessary for the application of the present invention.
  • an acoustic lighting device is provided.
  • embodiments of the present invention can be applied to a lighting device that generates a light source in a dark space using an industrially used tactile sense so that a user can secure a field of view.

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Acoustics & Sound (AREA)
  • Signal Processing (AREA)
  • Multimedia (AREA)
  • Arrangement Of Elements, Cooling, Sealing, Or The Like Of Lighting Devices (AREA)

Abstract

La présente invention concerne un dispositif d'éclairage sonore comprenant : une unité de boîtier dans laquelle une unité d'éclairage générant une source de lumière peut être installée ; une unité de haut-parleur qui est disposée sur le côté extérieur de l'unité d'éclairage et qui est pourvue d'un module sonore générant un son ; et une unité de guidage qui est reliée à l'unité de haut-parleur, est installée dans l'unité de boîtier et constitue un passage de transfert du son généré par le module sonore.
PCT/KR2021/011666 2021-06-08 2021-08-31 Dispositif d'éclairage sonore WO2022260214A1 (fr)

Applications Claiming Priority (6)

Application Number Priority Date Filing Date Title
KR1020210074365A KR102580118B1 (ko) 2021-06-08 2021-06-08 음향 조명 디바이스
KR10-2021-0074365 2021-06-08
KR10-2021-0074362 2021-06-08
KR1020210074367A KR102541035B1 (ko) 2021-06-08 2021-06-08 음향 조명 디바이스
KR1020210074362A KR20220165877A (ko) 2021-06-08 2021-06-08 음향 조명 디바이스
KR10-2021-0074367 2021-06-08

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US20160363312A1 (en) * 2014-12-29 2016-12-15 Sengled Optoelectronics Co., Ltd. Led lamp with speaker
KR101698157B1 (ko) * 2016-08-04 2017-01-19 성일 스피커를 구비한 베개
KR20200117655A (ko) * 2019-04-05 2020-10-14 주식회사 알토 조명 장치

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