CN218720897U - Ceiling lamp capable of being installed in embedded mode - Google Patents

Abstract

The utility model discloses a ceiling lamp capable of being embedded and installed, which comprises an installation support, wherein the installation support is provided with at least two connecting arms, one end of each connecting arm is formed into an installation end, and the other end of each connecting arm is formed into a connecting end; the lamp holder is internally provided with a first cavity and a second cavity which are sequentially distributed in the height direction of the lamp holder; the inner walls of the first cavity and the second cavity are provided with heat conducting layers; the light source assembly comprises a reflecting cover, a light source bracket and a light source, one end of the light source bracket is arranged on the bottom wall of the second cavity, and the other end of the light source bracket is covered with the reflecting cover; the light source is arranged on the light source bracket. The utility model discloses a ceiling internally mounted can be imbedded to the installation end of linking arm that has, and the first cavity of lamp stand and second cavity inner wall all have the heat-conducting layer to dispel the heat.

Description

Ceiling lamp capable of being installed in embedded mode

Technical Field

The utility model relates to the technical field of lighting fixtures, especially, relate to a ceiling lamp of embedded installation.

Background

The ceiling lamp is one of lamps, and the ceiling lamp is called as the ceiling lamp as the name suggests because the lamp top is relatively flat, and the bottom pastes on the roof completely during installation.

However, the existing open ceiling lamp is limited by field installation conditions, is only suitable for a flat ceiling structure, has single installation conditions, and cannot be installed when the ceiling has an inclined plane or an arc plane, so that the installation is limited.

In addition, because in order to make things convenient for the heat dissipation of ceiling lamp, the aluminium alloy material of adopting carries out the shell preparation usually, improves heat dispersion, if install other radiator, then can lead to the lamp stand whole aggravation, is unfavorable for the ceiling mounting.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a ceiling lamp of embedded installation, the ceiling internally mounted can be embedded into to the installation end of the linking arm that it has, and the first cavity and the second cavity inner wall of lamp stand all have the heat-conducting layer to dispel the heat.

The purpose of the utility model is realized by adopting the following technical scheme:

an embeddable ceiling lamp, which comprises,

the mounting bracket is provided with at least two connecting arms, one end of each connecting arm is formed into a mounting end, and the other end of each connecting arm is formed into a connecting end;

the connecting ends of the connecting arms are detachably mounted on the lamp holder; a first cavity and a second cavity are arranged in the lamp holder, and the first cavity and the second cavity are sequentially distributed in the height direction of the lamp holder; the inner walls of the first cavity and the second cavity are provided with heat conducting layers;

the light source assembly comprises a reflecting cover, a light source bracket and a light source, one end of the light source bracket is arranged on the bottom wall of the second cavity, and the other end of the light source bracket is covered with the reflecting cover; the light source is mounted on the light source bracket.

Furthermore, a through hole is formed in the light source bracket, a mounting groove is formed in the end part, away from the reflecting cover, of the light source bracket, and the through hole penetrates through the bottom wall of the mounting groove; the light source is arranged in the mounting groove, so that light rays of the light source are emitted from the through hole.

Further, the light source support deviates from the tip of reflector is equipped with the radiating groove, the one end of radiating groove link up to the lateral wall of mounting groove, the other end of radiating groove link up to the periphery edge of light source support.

Further, an anti-dazzle cover is arranged at the end part, far away from the first cavity, of the second cavity, and the anti-dazzle cover is made of an anti-dazzle plate.

Furthermore, a clamping hook is arranged on the anti-dazzle cover, and a clamping opening is arranged on the inner wall of the second cavity; the clamping hook is used for being clamped to the clamping opening.

Further, the inner walls of the first cavity and the second cavity are coated with heat-conducting silicone layers, and the heat-conducting silicone layers are formed into the heat-conducting layers.

Furthermore, the mounting ends of the connecting arms are fixedly connected through connecting pieces; the connecting ends of the connecting arms extend into the first cavity and penetrate into the second cavity through the first cavity to be mounted on the inner wall of the second cavity.

Compared with the prior art, the beneficial effects of the utility model reside in that:

1. when installing, the installation end of the linking arm of installing support can imbed inside the ceiling (like inside mounting groove or furred ceiling etc.), and the link of linking arm then can be realized being connected with the lamp stand, is applicable to the installation of different ceiling faces.

2. The light source assembly is arranged in the second cavity of the lamp holder, so that the hidden installation is realized, and the whole lamp is more attractive; the first cavity can be used as a heat dissipation cavity for heat dissipation when the light source assembly works, and heat dissipation performance of the lamp during use is improved.

3. The inner walls of the first cavity and the second cavity are provided with heat conducting layers, so that heat of the light source assembly can be dissipated during working, heat conduction can be realized without additionally arranging a radiator, the heat dissipation effect is better, and the weight of the lamp is reduced.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic view of another perspective structure of the present invention;

FIG. 3 is a schematic view of the exploded structure of the present invention;

fig. 4 is a schematic structural diagram of the light source bracket of the present invention.

In the figure: 10. a lamp socket; 11. a first cavity; 20. a light source; 30. a light source holder; 31. a through hole; 32. mounting grooves; 33. a heat sink; 40. a reflector; 50. an anti-glare cover; 51. a hook is clamped; 60. a connecting arm; 70. and (7) connecting the sheets.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments:

a ceiling lamp capable of being embedded and installed as shown in fig. 1-4 comprises a mounting bracket and a lamp holder 10, wherein the mounting bracket is provided with at least two connecting arms 60, one end of each connecting arm 60 is formed as a mounting end, and the other end of each connecting arm 60 is formed as a connecting end.

Specifically, the connecting end of the connecting arm 60 can be detachably mounted on the lamp holder 10 through a connecting structure such as a screw, a bolt, a buckle, or the like. The first cavity 11 and the second cavity are disposed in the lamp holder 10, and the first cavity 11 and the second cavity are sequentially distributed in the height direction of the lamp holder 10, in this embodiment, the first cavity 11 is located at the top end of the lamp holder 10, and the second cavity is located at the bottom end of the lamp holder 10. The inner walls of the first cavity 11 and the second cavity are provided with heat conducting layers.

In addition, the light source 20 assembly comprises a reflecting shade 40, a light source bracket 30 and a light source 20, one end of the light source bracket 30 is installed on the bottom wall of the second cavity, and the other end of the light source bracket 30 is covered with the reflecting shade 40; the light source 20 is mounted on the light source holder 30.

On the basis of the structure, use the utility model discloses a during ceiling lamp of embedded installation, when installing, the installation end of linking arm 60 of installing support can imbed inside the ceiling (like mounting groove 32 or furred ceiling inside etc.), and the installation of installation end and ceiling structure can be installed through connection structure such as bolt or screw. And the link of linking arm 60 then can realize dismantling with lamp stand 10 and be connected, so, alright install lamp stand 10 in smallpox structure, owing to install the arm of the installation that leads to the installing support, but the top surface of lamp stand 10 assembles, therefore can be applicable to the installation of different smallpox faces, is restricted in most on-the-spot installation condition, can leak outward and obviously adorn, can half embedded installation etc. lamp body outside screw fixed knot constructs conveniently, does not receive the ceiling structure influence, and it is convenient to install, and is whole pleasing to the eye.

In addition, because the light source 20 assembly is arranged in the second cavity of the lamp holder 10, the hidden installation is realized, and the whole lamp is more attractive; the first cavity 11 has a cavity structure, so that heat is more easily dissipated compared with a solid structure, that is, the first cavity 11 can be used as a heat dissipation cavity for dissipating heat when the light source 20 assembly works, thereby improving heat dissipation performance of the lamp during use. The inner walls of the first cavity 11 and the second cavity are provided with heat conducting layers, so that heat of the light source 20 assembly can be guided to be dissipated during working, heat conduction can be realized without additionally arranging a radiator, the heat dissipation effect is better, and the weight of the lamp is reduced.

Furthermore, a through hole 31 can be further arranged on the light source support 30, an installation groove 32 is arranged at the end part of the light source support 30 departing from the reflecting shade 40, and the through hole 31 penetrates through the bottom wall of the installation groove 32; the light source 20 is installed in the installation groove 32 such that the light of the light source 20 is emitted from the through hole 31.

On this structure basis, above-mentioned light source 20 can choose for use to be LED lamp pearl or COB lamp pearl structure among the prior art, bonds the substrate structure of lamp pearl or through the screw assembly in mounting groove 32, realizes the location fixed, and the lamp pearl then can correspond in through-hole 31 position, and at light source 20 during operation, the light of lamp pearl transmission can see through-hole 31 and jet out, throws light on. And the light source 20 emitted by the lamp bead can also reflect and condense light through the reflecting cover 40, so that the illumination brightness is better.

Further, can also be equipped with the radiating groove 33 at the tip that light source support 30 deviates from reflector 40, link up the one end of radiating groove 33 to the lateral wall of mounting groove 32, the other end of radiating groove 33 link up to the periphery of light source support 30 along, so, install the back in mounting groove 32 at the lamp pearl, the heat that the lamp pearl produced can be guided to light source support 30's periphery by radiating groove 33 to in getting into the second cavity, derive through the heat-conducting layer on the second cavity. Of course, some heat can also be dissipated through the heat conducting layer on the first cavity 11.

Further, an anti-glare cover 50 can be further arranged at the end part, far away from the first cavity 11, of the second cavity, and the anti-glare cover 50 is made of an anti-glare plate, specifically, a plastic anti-glare plate, a glass fiber reinforced plastic anti-glare plate and the like in the prior art, so that glare can be prevented from being generated when light is emitted through the reflecting cover 40, and the lighting effect is better.

Further, in order to facilitate the installation of the anti-dazzle cover 50 and the lamp holder 10, a hook 51 may be further disposed on the anti-dazzle cover 50, and a bayonet is correspondingly disposed on the inner wall of the second cavity, so that when the second cavity of the anti-dazzle cover 50 and the lamp holder 10 is installed, the anti-dazzle cover 50 may extend into the second cavity, and the hook 51 is used for being clamped to the bayonet, thereby facilitating the replacement of the anti-dazzle cover 50.

Through the anti-dazzle shade 50 of changing different surface plating effects, lamps and lanterns outward appearance visual effect is nimble changeable, and the different anti-dazzle effect of lamps and lanterns can be adjusted to different anti-dazzle shade 50.

Further, the inner walls of the first cavity 11 and the second cavity are coated with heat-conducting silicone grease layers, the heat-conducting silicone grease has high heat conductivity and excellent heat conductivity, the working heat of the lamp can be conveniently and rapidly dissipated, and the heat-conducting silicone grease layers are formed into heat-conducting layers.

Of course, the heat conducting layer may also be implemented by a heat conducting metal sheet structure in the prior art.

Further, in the present embodiment, the mounting end of each connecting arm 60 is fixedly connected by a connecting piece 70, and the connecting end of each connecting arm 60 extends into the first cavity 11 and penetrates into the second cavity through the first cavity 11 to be mounted on the inner wall of the second cavity. Specifically, when assembling the lamp holder 10, because the mounting end of each connecting arm 60 is connected to the connecting sheet 70, a threaded hole can be formed in the connecting sheet 70, when assembling, the threaded hole is screwed with a bolt or a screw, and the connecting arm 60 enters the second cavity through the first cavity 11 and is connected and assembled with the inner wall of the second cavity, so that the depth of the connecting arm 60 in the lamp holder 10 is deep, and the assembling structure is more stable.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes are intended to fall within the scope of the claims.

Claims (7)

1. An embeddable ceiling lamp, which is characterized in that the utility model comprises,

the mounting bracket is provided with at least two connecting arms, one end of each connecting arm is formed into a mounting end, and the other end of each connecting arm is formed into a connecting end;

the connecting ends of the connecting arms are detachably mounted on the lamp holder; a first cavity and a second cavity are arranged in the lamp holder, and the first cavity and the second cavity are sequentially distributed in the height direction of the lamp holder; the inner walls of the first cavity and the second cavity are provided with heat conducting layers;

the light source assembly comprises a reflecting cover, a light source support and a light source, one end of the light source support is installed on the bottom wall of the second cavity, and the other end of the light source support is covered with the reflecting cover; the light source is mounted on the light source bracket.

2. The embeddable ceiling lamp of claim 1, wherein a through hole is formed in the light source bracket, an installation groove is formed in an end of the light source bracket away from the reflector, and the through hole penetrates through a bottom wall of the installation groove; the light source is arranged in the mounting groove, so that light rays of the light source are emitted from the through hole.

3. The ceiling lamp of claim 2, wherein the end of the light source bracket facing away from the reflector is provided with a heat sink, one end of the heat sink penetrates through the side wall of the mounting groove, and the other end of the heat sink penetrates through the outer peripheral edge of the light source bracket.

4. The embeddable ceiling lamp of claim 1, wherein an end of the second chamber remote from the first chamber is provided with a glare shield, and the glare shield is made of a glare shield.

5. The embeddable ceiling lamp of claim 4, wherein a hook is provided on the glare shield, and a bayonet is provided on an inner wall of the second cavity; the clamping hook is used for being clamped to the clamping opening.

6. The embeddable ceiling lamp of claim 1, wherein inner walls of the first and second cavities are each coated with a layer of thermally conductive silicone, the layer of thermally conductive silicone being formed as the thermally conductive layer.

7. The embeddable ceiling lamp of claim 1, wherein a mounting end of each of the connecting arms is fixedly connected via a connecting piece; the connecting end of each connecting arm extends into the first cavity and penetrates into the second cavity through the first cavity to be mounted on the inner wall of the second cavity.

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