CN217131092U - Ceiling lamp - Google Patents

Abstract

The utility model discloses a ceiling lamp, which comprises a main body and a plurality of scattering components; a first cavity is arranged in the main body; a power supply component is arranged in the first cavity; the scattering assembly is fixed below the main body, and a second cavity communicated with the first cavity is arranged in the scattering assembly; the second cavity is internally provided with a first lighting part connected with the power supply part, and the side surface of the second cavity is provided with a plurality of light holes. By arranging the main body and the scattering assembly, the first illuminating component can effectively enlarge the illuminating range of the ceiling lamp and improve the illuminating effect of the ceiling lamp; through setting up second cavity and light trap, guaranteed first lighting component's the flexibility that sets up, also make the light that first lighting component sent can pass the light trap and jet out from the side of second cavity, avoid people's eye to look directly at first lighting component, improve the anti-dazzle function of ceiling lamp.

Description

Ceiling lamp

Technical Field

The utility model belongs to the technical field of the lighting technology and specifically relates to a ceiling lamp.

Background

At present, the common ceiling lamp on the market structurally comprises a lampshade and a light source arranged in the lampshade. According to the ceiling lamp with the conventional structure, the light source is completely wrapped by the lampshade, so that the illumination effect of the ceiling lamp is poor. Therefore, some ceiling lamps have an open structure, that is, a lamp panel, and the light source is directly mounted on the lamp panel. However, although the ceiling lamp with the structure has a better lighting effect, the light source is directly exposed, so that not only is a serious glare phenomenon caused, but also safety hazards are brought, and the using effect is influenced.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, an object of the utility model is to provide a ceiling lamp carries out abundant scattering to light, guarantees the illuminating effect of ceiling lamp, improves the anti-dazzle function of ceiling lamp.

The utility model provides a technical scheme that its problem adopted is:

a ceiling lamp comprises a main body and a plurality of scattering assemblies; a first cavity is arranged in the main body; a power supply part is arranged in the first cavity; the scattering assembly is fixed below the main body, and a second cavity communicated with the first cavity is arranged in the scattering assembly; and a first lighting part connected with the power supply part is arranged in the second cavity, and a plurality of light holes are formed in the side surface of the second cavity.

Above-mentioned ceiling lamp has following beneficial effect at least: by arranging the scattering component, the first lighting component can effectively enlarge the lighting range of the ceiling lamp and improve the lighting effect of the ceiling lamp; through setting up second cavity and light trap, guaranteed first lighting component's the flexibility that sets up, also make the light that first lighting component sent can pass the light trap and jet out from the side of second cavity, avoid people's eye to look directly at first lighting component, improve the anti-dazzle function of ceiling lamp.

Further, the light holes are uniformly distributed on two sides of the second cavity. The structure can ensure that light rays emitted by the first lighting component can penetrate through the light-transmitting holes to be uniformly emitted, and the anti-dazzle function of the ceiling lamp is ensured.

Further, the shape of the light hole is circular. The structure increases the area of the light hole, ensures the brightness of light emitted from the light hole, and improves the lighting effect of the first lighting component.

Further, the scattering component comprises a plurality of scattering blocks, and the plurality of scattering blocks are fixedly connected with the main body. Through setting up a plurality of scattering pieces, improved the flexibility and the stability of scattering subassembly, increased the illumination scope of first lighting components effectively.

Further, the scattering block is L-shaped. The scattering block with the structure has strong expansibility, so that the irradiation range of the first lighting component can be ensured, and the production cost of the ceiling lamp can be reduced.

Further, the scattering block is a rectangular frame. The scattering block of this kind of structure stability is high, and the symmetrical structure can guarantee that the light that the scattering block sent is even, soft, improves ceiling lamp's anti-dazzle effect.

Further, the scattering blocks include an upper scattering block and a lower scattering block; the upper scattering block is connected with the main body, and the lower scattering block is connected with the main body through a connecting pipe. Through setting up scattering piece and lower scattering piece, avoid single first lighting parts to damage the condition that leads to the unable illumination of ceiling lamp, multi-level scattering piece has also guaranteed the anti-dazzle effect of ceiling lamp, improves the illuminating effect and the life of ceiling lamp.

Furthermore, the upper scattering block and the lower scattering block are both provided with aluminum profiles and lampshades; the aluminum section and the lampshade cover to form the second cavity; the light holes are located on two sides of the aluminum section. Through setting up aluminium alloy and lamp shade, guarantee that first lighting components can install in the aluminium alloy steadily to shine the below through the lamp shade, guarantee the structural stability of ceiling lamp.

Further, first illumination part is fixed in the aluminium alloy, just first illumination part is flexible lamp area. This kind of structure has guaranteed that first lighting part can be applicable to the scattering piece of different length and shape, improves the equipment convenience of ceiling lamp.

Further, be equipped with the installation piece in the first cavity, the both sides of main part are equipped with the draw-in groove, the both ends of installation piece pass through the screw with the connection can be dismantled to the draw-in groove. Through setting up installation piece and draw-in groove, be convenient for fix the main part on the ceiling, improve the installation convenience and the maintenance convenience of ceiling lamp.

The beneficial effect of above-mentioned ceiling lamp is: by arranging the scattering component, the first lighting component can effectively enlarge the lighting range of the ceiling lamp and improve the lighting effect of the ceiling lamp; by arranging the second cavity and the light-transmitting hole, the arrangement flexibility of the first lighting component is ensured, light rays emitted by the first lighting component can penetrate through the light-transmitting hole and be emitted out from the side surface of the second cavity, the first lighting component is prevented from being directly viewed by human eyes, and the anti-dazzle function of the ceiling lamp is improved; by arranging the plurality of scattering blocks, the flexibility and the stability of the scattering assembly are improved, and the illumination range of the first illumination component is effectively enlarged; through setting up installation piece and draw-in groove, be convenient for fix the main part on the ceiling, improve the installation convenience and the maintenance convenience of ceiling lamp.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural view of a ceiling lamp according to an embodiment of the present invention;

fig. 2 is an exploded view of a ceiling lamp according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a ceiling lamp according to another embodiment of the present invention;

fig. 4 is a schematic structural view of a ceiling lamp according to another embodiment of the present invention;

fig. 5 is an exploded view of a ceiling lamp according to another embodiment of the present invention;

fig. 6 is a schematic structural view of a ceiling lamp according to another embodiment of the present invention;

fig. 7 is a schematic structural view of a ceiling lamp according to another embodiment of the present invention;

fig. 8 is a schematic structural view of a ceiling lamp according to another embodiment of the present invention;

fig. 9 is a schematic structural view of a ceiling lamp according to another embodiment of the present invention.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

Referring to fig. 1 to 3, an embodiment of the present invention provides a ceiling lamp, including a main body 100 and a plurality of scattering assemblies 200; a first cavity 110 is arranged in the main body 100; a power supply part 130 is arranged in the first cavity 110; the scattering component 200 is fixed below the main body 100, and a second cavity 210 communicated with the first cavity 110 is arranged in the scattering component 200; the second cavity 210 is provided therein with a first lighting part 220 connected to the power supply part 130, and a side surface of the second cavity 210 is provided with a plurality of light-transmitting holes 211.

By arranging the scattering component 200, the first lighting component 220 can effectively enlarge the lighting range of the ceiling lamp and improve the lighting effect of the ceiling lamp; through setting up second cavity 210 and light trap 211, guaranteed the flexibility that sets up of first lighting component 220, also make the light that first lighting component 220 sent can pass the side of light trap 211 follow second cavity 210 and jet out, avoid people's eye to look directly at first lighting component 220, improve the anti-dazzle function of ceiling lamp.

In another embodiment, the light transmission holes 211 are uniformly distributed on both sides of the second cavity 210. The structure can ensure that light rays emitted by the first lighting component 220 can penetrate through the light-transmitting holes 211 to be uniformly emitted, and the anti-dazzle function of the ceiling lamp is ensured.

In another embodiment, the light-transmitting hole 211 has a circular shape. This structure increases the area of the light hole 211, ensures the brightness of the light emitted from the light hole 211, and improves the illumination effect of the first illumination member 220. Of course, in other embodiments, the shape of the light-transmitting hole 211 can be other geometric shapes, such as triangle, rectangle, etc.

In another embodiment, the scattering assembly 200 includes a plurality of scattering masses 230, and each of the plurality of scattering masses 230 is fixedly connected to the main body 100. By providing a plurality of diffuser elements 230, the flexibility and stability of the diffuser assembly 200 is improved, effectively increasing the illumination range of the first illumination component 220.

Referring to fig. 1 to 3, another embodiment, the scattering mass 230 has an L-shape. The scattering block 230 of this structure has strong expansibility, which can not only ensure the irradiation range of the first illumination component 220, but also reduce the production cost of the ceiling lamp. Illustratively, the diffuser assembly 200 shown in FIG. 1 is comprised of two interconnected L-shaped diffuser masses 230; the scattering assembly 200 shown in fig. 3 is comprised of four sets of mutually parallel L-shaped scattering masses 230. The scattering blocks 230 can be adjusted in size and quantity according to the field lighting requirements, so that the ceiling lamp can be suitable for different application scenes.

Referring to fig. 4 to 9, another embodiment, the scattering block 230 is a rectangular frame. The scattering block 230 of this kind of structure stability is high, and the symmetrical structure can guarantee that the light that the scattering block 230 sent is even, soft, improves the anti-dazzle effect of ceiling lamp. Illustratively, the scattering assembly 200 shown in fig. 4 is composed of two rectangular frames with the same size, which are staggered from each other; the scattering component 200 shown in fig. 6 is composed of two rectangular frames with different sizes connected to each other; the scattering assembly 200 shown in fig. 7 is composed of three rectangular frames with different sizes connected up and down; the scattering assembly 200 shown in fig. 8 is formed by connecting two rectangular frames with different sizes, wherein the main body 100 is located inside the upper scattering block 231; the diffusion assembly 200 shown in fig. 9 is composed of two upper diffusion blocks 231 and one lower diffusion block 232 located at the side of the body 100. It is understood that the diffuser block 230, when a rectangular frame, can be formed into the diffuser assembly 200 in a variety of combinations to meet different lighting requirements.

In another embodiment, the scattering block 230 includes an upper scattering block 231 and a lower scattering block 232; the upper diffusion mass 231 is connected to the main body 100, and the lower diffusion mass 232 is connected to the main body 100 through a connection pipe 240. Through setting up scattering block 231 and lower scattering block 232, avoid single first lighting components 220 to damage the condition that leads to the unable illumination of ceiling lamp, multi-level scattering block 230 has also guaranteed the anti-dazzle effect of ceiling lamp, improves the illuminating effect and the life of ceiling lamp.

In another embodiment, the upper scattering block 231 and the lower scattering block 232 are both provided with aluminum profiles 233 and a lampshade 234; the aluminum profiles 233 and the lamp cover 234 cover to form the second cavity 210; the light transmission holes 211 are located at both sides of the aluminum profile 233. Through setting up aluminium alloy 233 and lamp shade 234, guarantee that first lighting component 220 can install steadily in aluminium alloy 233 to shine the below through lamp shade 234, guarantee the structural stability of ceiling lamp.

In another embodiment, the first illumination member 220 is fixed in the aluminum profile 233, and the first illumination member 220 is a flexible light strip. This kind of structure has guaranteed that first lighting component 220 can be applicable to the scattering piece 230 of different length and shape, improves the equipment convenience of ceiling lamp.

In another embodiment, a mounting block 140 is disposed in the first cavity 110, two sides of the main body 100 are provided with a slot 150, and two ends of the mounting block 140 are detachably connected to the slot 150 through screws. Through setting up installation piece 140 and draw-in groove 150, be convenient for fix main part 100 on the ceiling, improve the installation convenience and the maintenance convenience of ceiling lamp.

Referring to fig. 4 and 5, in another embodiment, a second lighting part 120 is disposed in the first cavity 110, and the second lighting part 120 is electrically connected to the power supply part 130. Through setting up second lighting component 120, can improve the illumination luminance of ceiling lamp effectively. Wherein the second lighting part 120 comprises a protective cover 121, a light source plate 122 and a light-transmitting plate 123. The light source plate 122 and the light-transmitting plate 123 are fixed in the first cavity 110 by the cover 121, and light emitted from the light source plate 122 is irradiated to the lower side of the body 100 through the light-transmitting plate 123. Illustratively, the second illumination component 120 is disposed in a case where the diffusion block 230 is a rectangular frame, as shown in fig. 4 to 9. This effectively improves the illumination effect of the lamp source plate 122 and also prevents the scattering block 230 from shielding the second illumination component 120.

The working principle of the present invention will be further explained below.

During assembly, the diffuser 230 of corresponding shape and size is selected according to the lighting requirements of the scene; as shown in fig. 1 to 9, aluminum profiles 233 having light-transmitting holes 211 are sequentially fixed to the main body 100; the second lighting component 120 and the power component 130 are installed in the first cavity 110, and the first lighting component 220 is installed in the second cavity 210, wherein the first lighting component 220 is a flexible light strip which can be flexibly cut and installed according to the length of the aluminum profile 233; then, the first illumination part 220 and the power supply part 130 are wire-connected through the connection pipe 240; finally, the lampshade 234 is fixedly arranged at the lower end of the aluminum section 233, and the assembly of the ceiling lamp is completed. In use, the mounting block 140 is fixed to the ceiling, the power supply unit 130 is connected to an external power supply, both ends of the mounting block 140 are connected to the slots 150 by screws, and the main body 100 is mounted to the ceiling. When the second illumination component 120 and the first illumination component 220 are turned on, the diffusion component 200 positioned below the main body 100 can effectively block light emitted by the second illumination component 120, and the light is prevented from directly irradiating human eyes; the light that first lighting component 220 sent shines the below through lamp shade 234, simultaneously, passes the light trap 211 and jets out from the side of second cavity 210, avoids people's eye to look directly at first lighting component 220, improves the anti-dazzle function of ceiling lamp.

As can be seen from the above description, the ceiling lamp of the present invention can effectively enlarge the illumination range of the ceiling lamp by the arrangement of the main body 100 and the scattering assembly 200, the second illumination component 120 and the first illumination component 220, and improve the illumination effect of the ceiling lamp; by arranging the second cavity 210 and the light-transmitting hole 211, the flexibility of the arrangement of the first lighting component 220 is ensured, light rays emitted by the first lighting component 220 can penetrate through the light-transmitting hole 211 and be emitted out from the side surface of the second cavity 210, the first lighting component 220 is prevented from being directly viewed by human eyes, and the anti-dazzle function of the ceiling lamp is improved; by providing a plurality of scattering blocks 230, the flexibility and stability of the scattering assembly 200 are improved, and the illumination range of the first illumination component 220 is effectively increased; through setting up installation piece 140 and draw-in groove 150, be convenient for fix main part 100 on the ceiling, improve the installation convenience and the maintenance convenience of ceiling lamp.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the gist of the present invention within the knowledge range of those skilled in the art.

Claims (10)

1. A ceiling lamp is characterized by comprising a main body and a plurality of scattering assemblies; a first cavity is arranged in the main body; a power supply part is arranged in the first cavity; the scattering component is fixed below the main body, and a second cavity communicated with the first cavity is arranged in the scattering component; and a first lighting part connected with the power supply part is arranged in the second cavity, and a plurality of light holes are formed in the side surface of the second cavity.

2. A ceiling lamp as claimed in claim 1, wherein said light-transmitting apertures are evenly distributed on both sides of said second cavity.

3. A ceiling lamp as claimed in claim 2, wherein said light-transmitting aperture is circular in shape.

4. The ceiling lamp of claim 1, wherein the diffuser assembly comprises a plurality of diffusers, and the diffusers are fixedly connected to the main body.

5. A ceiling lamp as claimed in claim 4, wherein the diffuser is L-shaped.

6. The ceiling lamp of claim 4, wherein the scattering blocks are rectangular frames.

7. The ceiling lamp of claim 4, wherein the scattering mass comprises an upper scattering mass and a lower scattering mass; the upper scattering block is connected with the main body, and the lower scattering block is connected with the main body through a connecting pipe.

8. The ceiling lamp according to claim 7, wherein the upper scattering block and the lower scattering block are both provided with aluminum profiles and a lampshade; the aluminum section and the lampshade cover to form the second cavity; the light holes are located on two sides of the aluminum section.

9. The ceiling lamp according to claim 8, wherein the first lighting component is fixed in the aluminum profile, and the first lighting component is a flexible lamp strip.

10. The ceiling lamp according to claim 1, wherein an installation block is arranged in the first cavity, clamping grooves are formed in two sides of the main body, and two ends of the installation block are detachably connected with the clamping grooves through screws.

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