CN218954813U - Novel acoustic lifting ceiling lamp - Google Patents

Abstract

The utility model discloses a novel acoustic lifting ceiling lamp.A light-emitting diode (LED) driving controller and a lifter are fixed at the top of an inner cavity of a spinning bevel edge chassis, and the lower end of the spinning bevel edge chassis is connected with a chassis cover through a fastening mechanism; three groups of copper shielding wires are wound on the lifter, and after penetrating through the chassis cover, the three groups of copper shielding wires are fixedly connected to the spinning lampshade, and an acoustic sound absorbing lampshade arranged in a honeycomb mode is fixedly arranged at the bottom of the spinning lampshade; three groups of optical assemblies are embedded in the top of the spinning lampshade, and a plurality of groups of light source assemblies are fixed in the acoustic sound-absorbing lampshade; the fastening mechanism can realize the rapid assembly of the rotary extrusion bevel edge chassis and the chassis cover, and the appearance is screwless; the acoustic sound-absorbing lampshade is arranged in a honeycomb shape, can effectively reduce environmental decibels, and is widely applied to museums, conference rooms and household spaces.

Description

Novel acoustic lifting ceiling lamp

Technical Field

The utility model relates to the technical field of ceiling lamps, in particular to a novel acoustic lifting ceiling lamp.

Background

The chinese patent publication No. CN203560797U discloses a ceiling lamp, which is characterized by comprising an aluminum lampshade, wherein the bottom of the lampshade is connected with a radiator, the bottom of the lampshade is provided with an aluminum substrate for mounting LED lamp beads, and a diffusion plate is fixed at the opening of the lampshade through a lamp ring.

However, the above scheme has the following disadvantages: the aluminum substrate is fixed at the bottom of the lampshade through screws, the rear cover is fixed at the bottom of the radiator through four screws, the installation speed is low, and the screw leakage is not attractive; the wire hanging wire passes through the wavy gasket corresponding to the central perforation of the rear cover through the wire locking vehicle (or called wire locking device) and is fixed with the nut, the length of the wire hanging wire is certain, and the winding lifting of a lampshade and the like can not be realized through the wire hanging wire.

Disclosure of Invention

The utility model aims to provide a novel acoustic lifting ceiling lamp so as to solve the problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the novel acoustic lifting pendant lamp comprises a rotary-pressing bevel edge chassis, wherein an LED driving controller and a lifter are fixed at the top of an inner cavity of the rotary-pressing bevel edge chassis, and the lower end of the rotary-pressing bevel edge chassis is connected with a chassis cover through a fastening mechanism;

three groups of copper shielding wires are wound on the lifter, and are fixedly connected to the spinning lampshade after penetrating through the chassis cover, and an acoustic sound absorbing lampshade arranged in a honeycomb shape is fixed at the bottom of the spinning lampshade;

three groups of optical assemblies are embedded into the top of the spinning lampshade, the bottoms of the optical assemblies are fixed to the top of the optical fixing aluminum sheet, the optical assemblies are used for lighting the ceiling through the spinning lampshade, a plurality of groups of light source assemblies are fixed in the acoustic sound absorbing lampshade, lighting is given out through holes reserved in the acoustic sound absorbing lampshade, and the optical fixing aluminum sheet is fixed with the acoustic sound absorbing lampshade through a positioning iron ring.

Compared with the prior art, the utility model has the beneficial effects that: according to the utility model, the LED driving controller controls the lifter to work, so that the lifter works to wind three groups of copper shielding wires simultaneously, and the lifting and hovering functions of the acoustic sound-absorbing lampshade are realized;

because the lower end of the rotary pressing bevel edge chassis is connected with the chassis cover through the fastening mechanism, the fastening mechanism comprises three groups of male copper fasteners fixed on the top of the chassis cover and female copper fasteners fixed on the top of the inner cavity of the rotary pressing bevel edge chassis, and the male copper fasteners are fastened on the corresponding female copper fasteners, so that the rotary pressing bevel edge chassis and the chassis cover can be quickly assembled, and the appearance is screwless;

the acoustic sound-absorbing lampshade is arranged in a honeycomb mode, so that the environmental decibels can be effectively reduced, and the acoustic sound-absorbing lampshade is widely applied to museums, conference rooms and household spaces; the light source assembly is fixed in the acoustic sound-absorbing lampshade, lamplight is beaten out of a hole reserved in the acoustic sound-absorbing lampshade, and the light and the sound are perfectly combined; the bottom of the optical assembly is fixed at the top of the optical fixing aluminum sheet, and the optical assembly gives out lamplight to the ceiling through the spinning lampshade, so that the lamplight is more stereoscopic.

Drawings

FIG. 1 is a schematic view of the overall exploded construction of the present utility model;

FIG. 2 is a first perspective view of the whole structure of the present utility model;

FIG. 3 is a second perspective view of the whole structure of the present utility model;

FIG. 4 is a schematic perspective view of the chassis cover of the present utility model;

FIG. 5 is a schematic perspective view of a hypotenuse chassis of the present utility model;

FIG. 6 is a schematic view of an exploded construction of the light source assembly of the present utility model;

FIG. 7 is a schematic perspective view of a light source assembly according to the present utility model;

FIG. 8 is a schematic view of an exploded construction of an optical assembly of the present utility model;

fig. 9 is a schematic perspective view of an optical assembly according to the present utility model.

In the figure: 1. spinning a bevel edge chassis; 111. mother copper buckle; 2. an LED driving controller; 3. a lifter; 4. a copper shield wire; 5. a chassis cover; 51. male copper buckle; 6. spinning the lampshade; 7. a light source assembly; 71. a light source fixing member; 72. a 5W bi-color COB light source; 73. a COB holder; 74. a reflective cup; 75. a transparent PC light source cover plate; 8. an optical assembly; 81. injection molding an optical antiglare finish cover; 82. injection molding an optical lens strip; 83. a PCB circuit board; 9. optically fixing the aluminum sheet; 10. positioning an iron ring; 11. a gesture sensor; 12. an acoustic sound absorbing globe.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-9, the present utility model provides a technical solution: the novel acoustic lifting pendant lamp comprises a rotary-pressing bevel edge chassis 1, wherein an LED driving controller 2 and a lifter 3 are fixed at the top of an inner cavity of the rotary-pressing bevel edge chassis 1, and the lower end of the rotary-pressing bevel edge chassis 1 is connected with a chassis cover 5 through a fastening mechanism;

the fastening mechanism comprises three groups of male copper fasteners 51 fixed at the top of the chassis cover 5 and three groups of female copper fasteners 111 fixed at the top of the inner cavity of the rotary bevel chassis 1, the three groups of male copper fasteners 51 are distributed at equal intervals in a circular shape, and the male copper fasteners 51 are fastened on the corresponding female copper fasteners 111.

Three groups of copper shielding wires 4 are wound on the lifter 3, the three groups of copper shielding wires 4 penetrate through the chassis cover 5 and then are fixedly connected to the spinning lamp shade 6, and an acoustic sound absorbing lamp shade 12 arranged in a honeycomb mode is fixed at the bottom of the spinning lamp shade 6;

three groups of optical assemblies 8 are embedded into the top of the spinning lampshade 6, the bottoms of the optical assemblies 8 are fixed to the top of the optical fixing aluminum sheet 9, the optical assemblies 8 are used for lighting the ceiling through the spinning lampshade 6, a plurality of groups of light source assemblies 7 are fixed in the acoustic sound absorbing lampshade 12, lighting is given out through holes reserved in the acoustic sound absorbing lampshade 12, and the optical fixing aluminum sheet 9 is fixed with the acoustic sound absorbing lampshade 12 through a positioning iron ring 10.

The light source assembly 7 comprises a light source fixing piece 71, a 5W double-color COB light source 72, a COB bracket 73, a light reflecting cup 74 and a transparent PC light source cover plate 75, wherein the 5W double-color COB light source 72 is fixed at the top of the COB bracket 73, the COB bracket 73 is clamped into the bottom of the light source fixing piece 71, the light reflecting cup 74 is fixed at the bottom of the COB bracket 73, and the transparent PC light source cover plate 75 is fixed at the lower end of the light reflecting cup 74.

The optical assembly 8 comprises an injection molding optical antiglare surface cover 81, an injection molding optical lens strip 82 and a PCB circuit board 83, wherein the injection molding optical antiglare surface cover 81 is fixed at the upper end of the injection molding optical lens strip 82, and the injection molding optical lens strip 82 is fixed at the upper end of the PCB circuit board 83.

Still install gesture sensor 11 in the acoustics sound-absorbing lamp shade 12, optical subassembly 8, light source assembly 7, riser 3 and gesture sensor 11 all electric connection are in LED drive controller 2.

Specifically, when in use, the LED driving controller 2 controls the lifter 3 to work, so that the lifter 3 works to realize the simultaneous winding of three groups of copper shielding wires 4, thereby realizing the lifting and hovering functions of the acoustic sound-absorbing lampshade 12;

because the lower end of the spin-on hypotenuse chassis 1 is connected with the chassis cover 5 through the buckle mechanism, the buckle mechanism comprises three groups of male copper buckles 51 fixed on the top of the chassis cover 5 and female copper buckles 111 fixed on the top of the inner cavity of the spin-on hypotenuse chassis 1, and the male copper buckles 51 are buckled on the corresponding female copper buckles 111, so that the spin-on hypotenuse chassis 1 and the chassis cover 5 can be quickly assembled, and the appearance is screwless;

the acoustic sound-absorbing lampshade 12 is arranged in a honeycomb shape, so that the environmental decibels can be effectively reduced, and the acoustic sound-absorbing lampshade is widely applied to museums, conference rooms and household spaces;

the light source assembly 7 is fixed in the acoustic sound-absorbing lampshade 12, and lights are punched in holes reserved in the acoustic sound-absorbing lampshade 12, so that the light source assembly is perfectly combined with the sound;

the bottom of the optical assembly 8 is fixed on the top of the optical fixing aluminum sheet 9, and the optical assembly 8 gives out lamplight to the ceiling through the spinning lampshade 6, so that the lamplight is more stereoscopic.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a novel acoustic lift ceiling lamp, includes spinning hypotenuse chassis (1), its characterized in that: an LED driving controller (2) and a lifter (3) are fixed at the top of an inner cavity of the rotary extrusion bevel edge chassis (1), and the lower end of the rotary extrusion bevel edge chassis (1) is connected with a chassis cover (5) through a fastening mechanism;

three groups of copper shielding wires (4) are wound on the lifter (3), the three groups of copper shielding wires (4) penetrate through the chassis cover (5) and then are fixedly connected to the spinning lamp shade (6), and an acoustic sound absorbing lamp shade (12) arranged in a honeycomb mode is fixedly arranged at the bottom of the spinning lamp shade (6);

three groups of optical assemblies (8) are embedded into the top of the spinning lampshade (6), the bottoms of the optical assemblies (8) are fixed to the top of the optical fixing aluminum sheet (9), the optical assemblies (8) are used for lighting the ceiling through the spinning lampshade (6), a plurality of groups of light source assemblies (7) are fixed in the acoustic sound absorbing lampshade (12), the lights are lighted through holes reserved in the acoustic sound absorbing lampshade (12), and the optical fixing aluminum sheet (9) is fixed with the acoustic sound absorbing lampshade (12) through the positioning iron ring (10).

2. The novel acoustic lift pendant of claim 1, wherein: the fastening mechanism comprises three groups of male copper fasteners (51) fixed at the top of the chassis cover (5) and female copper fasteners (111) fixed at the top of the inner cavity of the rotary-pressing bevel edge chassis (1), the three groups of male copper fasteners (51) are distributed at equal intervals in a round shape, and the male copper fasteners (51) are fastened on the corresponding female copper fasteners (111).

3. The novel acoustic lift pendant of claim 1, wherein: still install gesture inductor (11) in the acoustics sound-absorbing lamp shade (12), optical subassembly (8), light source subassembly (7), riser (3) and gesture inductor (11) all electric connection in LED drive controller (2).

4. The novel acoustic lift pendant of claim 1, wherein: the light source assembly (7) comprises a light source fixing piece (71), a 5W double-color COB light source (72), a COB bracket (73), a light reflecting cup (74) and a transparent PC light source cover plate (75), wherein the 5W double-color COB light source (72) is fixed at the top of the COB bracket (73), the COB bracket (73) is clamped into the bottom of the light source fixing piece (71), the light reflecting cup (74) is fixed at the bottom of the COB bracket (73), and the transparent PC light source cover plate (75) is fixed at the lower end of the light reflecting cup (74).

5. The novel acoustic lift pendant of claim 1, wherein: the optical assembly (8) comprises an injection molding optical anti-dazzle surface cover (81), an injection molding optical lens strip (82) and a PCB (printed circuit board) (83), wherein the injection molding optical anti-dazzle surface cover (81) is fixed at the upper end of the injection molding optical lens strip (82), and the injection molding optical lens strip (82) is fixed at the upper end of the PCB (printed circuit board) (83).

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