CN218064722U - Lamp capable of emitting mixed light - Google Patents

Abstract

The utility model discloses a lamps and lanterns of hybrid light-emitting, include: the lamp comprises a lamp shell, a light source, a radiator and a lampshade; the lamp shell is provided with an inner cavity and an opening; the light source comprises a white light lamp arranged on the inner ring of the lamp panel and RGB lamps arranged on the outer ring of the lamp panel, or the white light lamp arranged on the outer ring of the lamp panel and the RGB lamps arranged on the inner ring of the lamp panel, and the white light lamp and the RGB lamps are integrated on the metal substrate to form the light source; the radiator is provided with a cavity for mounting the light source, the radiator is provided with a light outlet, and the light outlet is arranged corresponding to the opening of the lamp shell; the lampshade is connected with the light outlet of the radiator, the lampshade is covered at the opening of the lamp shell, the inner wall of the lampshade facing the light source is provided with an arc-shaped bulge structure, the arc-shaped surface of the arc-shaped bulge structure is a frosted surface or a fog surface, and the outer edge of the arc-shaped lampshade and/or the area close to the outer edge are transparent areas. The utility model discloses on the indoor desk lamp of house can be used to the volume lamps and lanterns to do good atmosphere and light dual-purpose, reach optics and aesthetic perfection unified.

Description

Lamp capable of emitting mixed light

Technical Field

The utility model belongs to the technical field of lamps and lanterns, concretely relates to lamps and lanterns of hybrid light-emitting.

Background

The existing RGBW/RGBCW is mainly applied to lamp belts and outdoor landscapes, and the RGBW refers to red, green and blue light as well as warm white light; RGBCW refers to red, green and blue light, warm white light and cold white light; there are few applications of RGBW/RGBCW in indoor table lamps and atmosphere lamps in the prior art. The COB light source manufacturing process comprises the steps of covering a silicon wafer placing point on the surface of a substrate by using heat-conducting epoxy resin, then directly placing the silicon wafer on the surface of the substrate, carrying out heat treatment until the silicon wafer is firmly fixed on the substrate, and then directly establishing electrical connection between the silicon wafer and the substrate by using a wire bonding method. However, the conventional COB light source generally selects a lens and a reflective cup to perform secondary optics, and the structure is complex, so that how to integrate and package the RGBW/RGBCW into the COB light source is achieved, and the light emitting effect is not affected on the premise of simplifying the structure of the lamp, which is a research direction of the conventional RGBW/RGBCW lamp.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a lamps and lanterns of hybrid light-emitting, with solving above-mentioned technical problem, through the integrated COB light source that encapsulates into to RGBW RGBCW, the lamp shade of making this light source cooperation by ya keli, give up prior art's lens and anti-light cup, only can also satisfy the required lighting condition of COB light source through the lamp shade, spare part has been reduced, whole manufacturing cost has been reduced, be convenient for install, make this lamps and lanterns can use on the indoor desk lamp of house, and do good atmosphere and light dual-purpose, it is perfectly unified with the aesthetic.

In order to realize the purpose of the utility model, the utility model adopts the following technical scheme:

a hybrid light-emitting luminaire, comprising:

the lamp shell is provided with an inner cavity, and an opening is formed in the lamp shell;

the light source comprises a white light lamp arranged at an inner ring of the lamp panel and RGB lamps arranged at an outer ring of the lamp panel, or the white light lamp arranged at the outer ring of the lamp panel and the RGB lamps arranged at the inner ring of the lamp panel, and the white light lamp and the RGB lamps are integrated on the metal substrate to form the light source;

the radiator penetrates through the opening and is arranged in the inner cavity of the lamp shell, the radiator is provided with a cavity for mounting the light source, the radiator is provided with a light outlet, and the light outlet and the opening of the lamp shell are correspondingly arranged;

the lamp shade, the lamp shade with the light-emitting mouth of radiator is connected, so that the light source with the lamp shade is just to setting up, just the lamp shade cover is established the opening part of lamp body, the lamp shade orientation set up arc protruding structure on the inner wall of light source, the surperficial arch formation arcwall face of arc protruding structure, the arcwall face is frosted surface or matte, the outer edge of the arc cover body and/or the region that is close to outer edge are the transparent area.

Preferably, the lamp also comprises a base, a bracket and a circuit control box, wherein the bottom of the lamp housing is mounted on the base, and the radiator is mounted in the inner cavity of the lamp housing through the bracket; the circuit control box is arranged in the inner cavity of the lamp shell, and a circuit board used for controlling the light source to work is arranged in the circuit control box.

Preferably, the upper end face of the base is provided with a mounting hole, the bottom of the lamp housing is provided with an assembly hole, and a screw penetrates through the mounting hole and the assembly hole to connect the base with the lamp housing.

Preferably, one end of the bracket is connected with the bottom of the radiator, and the other end of the bracket is connected with the bottom of the lamp shell; or one end of the bracket is connected with the bottom of the radiator, the other end of the bracket is connected with the upper end face of the circuit control box, and the bracket is connected with the radiator and the circuit control box through screws or in a bonding mode. Set up like this, can realize that the support is connected radiator and lamp body, thereby prevent that the radiator from rocking the light-emitting that influences the light source.

As more preferred, the bottom of lamp body set up to the concave surface of lamp body inner chamber direction indent, set up the mounting hole on the concave surface, when the concave surface was convenient for install was set to the lamp body bottom, there was installation allowance between lamp body and the base, can adjust the clearance between lamp body and the pedestal mounting, adjusted the elasticity of installation.

Preferably, the white light lamp with the RGB lamp is integrated form the COB light source on the metal substrate, the white light lamp is warm white light lamp and/or cold white light lamp.

With this arrangement, RGB light and monochromatic/bichromatic white light can be separated, and a COB light source provided with an RGBW lamp or an RGBCW lamp is formed. The mixed facula that light that this light source sent formed behind the lamp shade distributes evenly, and the facula effect of interior outer lane is different, has increased the atmosphere sense of facula for this lamps and lanterns have the dual effect of light and atmosphere lamp.

Preferably, the lampshade comprises an arc-shaped cover body and an annular convex edge arranged at the circumferential edge of the arc-shaped cover body in an axially extending manner, the annular convex edge extends towards the direction deviating from the lower end face of the arc-shaped cover body, and the arc-shaped convex structure is arranged at the center of the inner wall face of the arc-shaped cover body.

By the arrangement, the anti-dazzle area can be formed at the arc-shaped convex structure of the arc-shaped cover body of the lampshade, so that the lampshade has the anti-dazzle and light-gathering effects. Meanwhile, the inner surface and the outer surface of the arc cover body at the transparent area can be made into a bright surface, so that the light-emitting layering sense of the transparent area is increased, and light spots are uniform.

Preferably, the lamp shade is the ya keli lamp shade, choose for use the yakeli lamp shade to make the material cost reduction of lamps and lanterns, the yakeli lamp shade is convenient for process simultaneously, form arc protruding structure easily on the inner wall of the arc cover body, the region processing that is simultaneously along or is close to outer edge at the outer edge of the arc cover body forms transparent area, make whole lamp shade possess the effect of lens among the prior art and anti-light cup, can make lamps and lanterns not need mounted lens and anti-light cup, only can also satisfy the required lighting condition of COB light source through the lamp shade, spare part has been reduced, whole manufacturing cost is reduced, the installation of being convenient for.

Preferably, the outer diameter of the annular convex edge is smaller than the peripheral diameter of the arc-shaped cover body, the bottom surface of the arc-shaped cover body is in contact with the end face of the opening of the lamp housing, and the inner ring of the annular convex edge is connected with one end of the radiator, which is provided with the light outlet.

The arrangement is that the lampshade is connected with the radiator, the arc-shaped cover body of the lampshade seals the light outlet, the arc-shaped cover body covers the opening of the lamp housing, the annular convex edge of the lampshade is positioned between the lamp housing and the radiator, so that the lamp housing and the radiator are separated, and the annular convex edge made of acrylic is filled between the lamp housing and the radiator, so that even if the lamp housing is made of metal, when the annular convex edge is arranged between the lamp housing and the radiator, a control signal can enter the circuit control box in the lamp housing through the conduction of the annular convex edge, the circuit control box is not interfered by the metal lamp housing, and an exposed signal receiving wire is not required to be specially designed. Consequently this application does not influence signal reception again when solving the heat dissipation of COB light source, can also reach outward appearance and light-emitting function's perfect adaptation.

Preferably, the thickness of the annular convex edge is 2-5 mm.

Preferably, the lampshade and the radiator are connected through threads, an inner thread is arranged on the annular convex edge of the lampshade, an outer thread is arranged at one end, provided with the light outlet, of the radiator, and the lampshade and the radiator are connected through screwing of the inner thread and the outer thread.

Preferably, the lamp body is of a spherical structure, the bottom of the lamp body is of a plane structure, and an opening of the lamp body is formed in the side face of the lamp body, so that an included angle formed between the axial direction of the opening and the axial direction of the bottom of the lamp body is an acute angle.

The arrangement makes the opening of the lamp housing and the central axis of the lamp housing form an included angle, and then the light emitted from the opening is obliquely emitted but not vertically emitted.

Preferably, the opening is a circular mouth. This arrangement facilitates the mounting of the heat sink.

Preferably, the radiator is obliquely arranged in the inner cavity of the lamp housing, and an included angle between a central axis of the radiator and a central axis of the bottom of the lamp housing is an acute angle.

Preferably, the light outlet of the heat sink is disposed concentrically with the opening of the lamp housing.

Preferably, the support includes first mounting panel, second mounting panel and connection the cab apron is crossed in the middle of first mounting panel and second mounting panel, the second mounting panel for first mounting panel slope sets up, the second mounting panel with contained angle between the first mounting panel is the acute angle, the cab apron is crossed in the middle with contained angle between the first mounting panel is the obtuse angle, first mounting panel with the lamp body bottom or circuit control box connects, the second mounting panel with the radiator diapire outside is connected.

The arrangement is characterized in that the transition plate is arranged between the radiator and the shell, and the transition plate is arranged between the radiator and the shell.

Has the advantages that:

the utility model discloses a lamps and lanterns of hybrid light-emitting are through the integrated COB light source that encapsulates into RGBW RGBCW, the lamp shade is made for acrylic material, because the lamp shade forms anti-dazzle district in arc protruding structure department of the arc cover body, make the lamp shade have the effect of anti-dazzle and spotlight, consequently can abandon prior art's lens and reflection of light cup, only can also satisfy the required lighting condition of COB light source through the lamp shade, spare part has been reduced, whole manufacturing cost has been reduced, and is convenient for install, and the COB light source of this application can make RGB light and monochromatic/double-colored white light separation, the mixed facula that the light that this light source sent formed behind the lamp shade distributes evenly, and the facula effect of inner and outer lane is different, the atmosphere sense of facula has been increased, make this lamps and lanterns have the dual effect of light and atmosphere lamp.

Meanwhile, after the lamp shade and the radiator are assembled, the annular convex edge of the lamp shade is positioned between the lamp shell and the radiator, so that the lamp shell and the radiator are separated, and the annular convex edge made of acrylic is filled between the lamp shell and the radiator, so that even if the lamp shell is made of metal, when the annular convex edge is arranged between the lamp shell and the radiator, a control signal can be transmitted into the circuit control box in the lamp shell through the annular convex edge, the circuit control box is not interfered by the metal lamp shell, and an exposed signal receiving wire is not required to be specially designed. Consequently this application does not influence signal reception again when solving the heat dissipation of COB light source, can also reach the perfect adaptation of outward appearance and light-emitting function.

Drawings

Fig. 1 is a schematic structural view of a hybrid light emitting lamp of the present invention;

fig. 2 is an exploded view of the hybrid light emitting lamp of the present invention;

fig. 3 is an assembly view of a lampshade and a radiator of the hybrid light emitting lamp of the present invention;

fig. 4 is a front view of the hybrid light emitting lamp of the present invention;

FIG. 5 isbase:Sub>A cross-sectional view taken along line A-A of FIG. 4;

reference numerals

1. A lamp housing; 11. an opening; 2. a heat sink; 21. a light outlet; 3. a lamp shade; 31. an arc-shaped cover body; 311. an arc-shaped convex structure; 32. an annular convex edge; 4. a base; 5. a support; 51. a first mounting plate; 52. a second mounting plate; 53. a middle transition plate; 6. and a circuit control box.

Detailed Description

In order to more clearly illustrate embodiments of the present invention or technical solutions in the prior art, specific embodiments of the present invention will be described below with reference to the accompanying drawings. It is obvious that the drawings in the following description are only examples of the invention, and that for a person skilled in the art, other drawings and embodiments can be derived from them without inventive effort.

The technical solution of the present invention is described in detail with specific embodiments below.

Example 1

As shown in fig. 1 to 5, a hybrid light emitting lamp includes: a lamp housing 1, a light source (not shown), a heat sink 2 and a lamp cover 3; the lamp housing 1 is provided with an inner cavity, and the lamp housing 1 is provided with an opening 11; the light source comprises a white light lamp arranged at the inner ring of the lamp panel and RGB lamps arranged at the outer ring of the lamp panel, or the white light lamp arranged at the outer ring of the lamp panel and the RGB lamps arranged at the inner ring of the lamp panel, and the white light lamp and the RGB lamps are integrated on the metal substrate to form the light source; the heat sink 2 is arranged in the inner cavity of the lamp housing 1 through the opening 11, the heat sink 2 is provided with a cavity for mounting the light source, the heat sink 2 is provided with a light outlet 21, and the light outlet 21 and the opening 11 of the lamp housing 1 are correspondingly arranged; and the lamp shade 3 with the light-emitting port 21 of radiator 2 is connected, so that the light source with the lamp shade 3 is just to setting up, just the lamp shade 3 covers and establishes the opening 11 department of lamp body 1, the lamp shade 3 orientation set up arc protruding structure 311 on the inner wall of light source, the protruding arcwall face that forms of surface of arc protruding structure 311, the arcwall face is frosted surface or fog face, the outer edge of the arc cover body 31 and/or the region that is close to the outer edge are the transparent region.

White light lamp with the RGB lamp is integrated form the COB light source on the metal substrate, white light lamp is warm white light lamp and/or cold white light lamp. With this arrangement, RGB light and monochromatic/bichromatic white light can be separated, and a COB light source provided with an RGBW lamp or an RGBCW lamp can be formed. The mixed facula that light that this light source sent formed behind lamp shade 3 distributes evenly, and the facula effect of interior outer lane is different, has increased the atmosphere sense of facula for this lamps and lanterns have the dual effect of light and atmosphere lamp.

The lampshade 3 comprises an arc-shaped cover body 31 and an annular convex edge 32 which is arranged at the circumferential edge of the arc-shaped cover body 31 in an axially extending mode, the annular convex edge 32 faces away from the lower end face of the arc-shaped cover body 31 in an extending mode, and the arc-shaped protruding structure 311 is arranged at the center of the inner wall face of the arc-shaped cover body 31. By means of the arrangement, the lampshade 3 can form an anti-dazzle area at the arc-shaped convex structures 311 of the arc-shaped lampshade body 31, so that the lampshade 3 has anti-dazzle and light-gathering effects. Meanwhile, the inner surface and the outer surface of the arc cover body 31 at the transparent area can be made into bright surfaces, so that the light-emitting layering sense of the transparent area is increased, and light spots are uniform.

Lamp shade 3 is ya keli lamp shade 3, choose for use yakeli lamp shade 3 can be so that the material cost of lamps and lanterns reduces, yakeli lamp shade 3 is convenient for process simultaneously, form arc protruding structure 311 easily on the inner wall of the arc cover body 31, the regional processing that is along or is close to outer edge at the outer edge of the arc cover body 31 simultaneously forms transparent region, make whole lamp shade 3 possess the effect of lens and anti-light cup among the prior art, can make lamps and lanterns need not mounted lens and anti-light cup, only also can satisfy the required lighting condition of COB light source through lamp shade 3, spare part has been reduced, whole manufacturing cost is reduced, and the installation is convenient.

The outer diameter of the annular convex edge 32 is smaller than the outer diameter of the arc cover body 31, and the thickness of the annular convex edge 32 is 2-5 mm. The bottom surface of the arc-shaped cover body 31 is in contact with the end surface of the opening 11 of the lamp housing 1, and the inner ring of the annular convex edge 32 is connected with one end of the heat sink 2 provided with the light outlet 21. The arrangement is that after the lamp shade 3 is connected with the heat sink 2, the arc-shaped cover body 31 of the lamp shade 3 seals the light outlet 21, the arc-shaped cover body 31 covers the opening 11 of the lamp shell 1, and meanwhile, the annular convex edge 32 of the lamp shade 3 is positioned between the lamp shell 1 and the heat sink 2, so that the lamp shell 1 is separated from the heat sink 2, and the annular convex edge 32 made of acrylic is filled between the lamp shell 1 and the heat sink 2, so that even if the lamp shell 1 is made of metal, when the annular convex edge 32 is arranged between the lamp shell 1 and the heat sink 2, a control signal can be transmitted into the circuit control box 6 in the lamp shell 1 through the annular convex edge 32, the circuit control box 6 is not interfered by the metal lamp shell 1, and an exposed signal receiving line is not required to be specially designed. Consequently this application does not influence signal reception again when solving the heat dissipation of COB light source, can also reach outward appearance and light-emitting function's perfect adaptation.

The lampshade 3 is connected with the radiator 2 through threads, an inner ring of an annular convex edge 32 of the lampshade 3 is provided with an inner thread, one end of the radiator 2, which is provided with the light outlet 21, is provided with an outer thread, and the lampshade 3 is connected with the radiator 2 through the screwing of the inner thread and the outer thread.

The lamp housing 1 is of a spherical structure, the bottom of the lamp housing 1 is of a plane structure, and the opening 11 of the lamp housing 1 is formed in the side face of the lamp housing 1, so that an included angle formed between the axis direction of the opening 11 and the axis direction of the bottom of the lamp housing 1 is an acute angle. The arrangement makes the opening 11 of the lamp housing 1 and the central axis of the lamp housing 1 form an included angle, and the light emitted from the opening 11 is obliquely emitted, not vertically emitted. The opening 11 is a circular opening. This arrangement facilitates the mounting of the heat sink 2. The radiator 2 is obliquely arranged in the inner cavity of the lamp housing 1, and an included angle between the central axis of the radiator 2 and the central axis of the bottom of the lamp housing 1 is an acute angle. The light outlet 21 of the heat sink 2 is concentrically arranged with the opening 11 of the lamp housing 1.

As shown in fig. 3 and 5, the lamp of this embodiment further includes a base 4, a bracket 5 and a circuit control box 6, the bottom of the lamp housing 1 is mounted on the base 4, and the heat sink 2 is mounted in the inner cavity of the lamp housing 1 through the bracket 5; the circuit control box 6 is arranged in the inner cavity of the lamp shell 1, and a circuit board used for controlling the light source to work is arranged in the circuit control box 6. The bottom of the lamp housing 1 is set to be the concave surface inwards concave in the direction of the inner cavity of the lamp housing 1, the concave surface is provided with a mounting hole, when the bottom of the lamp housing 1 is set to be the concave surface convenient to mount, mounting allowance is arranged between the lamp housing 1 and the base 4, a gap between the lamp housing 1 and the base 4 can be adjusted, and the mounting tightness is adjusted.

The upper end face of the base 4 is provided with a mounting hole, the bottom of the lamp housing 1 is provided with an assembly hole, and a screw penetrates through the mounting hole and the assembly hole to connect the base 4 with the lamp housing 1.

One end of the bracket 5 is connected with the bottom of the radiator 2, and the other end of the bracket is connected with the bottom of the lamp shell 1; or one end of the bracket 5 is connected with the bottom of the radiator 2, the other end of the bracket is connected with the upper end face of the circuit control box 6, and the bracket 5 is connected with the radiator 2 and the circuit control box 6 through screws or in a bonding mode. Set up like this, can realize that support 5 connects radiator 2 and lamp body 1, thereby prevent that radiator 2 from rocking the light-emitting that influences the light source.

The support 5 includes first mounting panel 51, second mounting panel 52 and connects the cab apron 53 is crossed in the middle of first mounting panel 51 and second mounting panel 52, second mounting panel 52 for first mounting panel 51 slope sets up, second mounting panel 52 with contained angle between the first mounting panel 51 is the acute angle, the cab apron 53 is crossed in the middle with contained angle between the first mounting panel 51 is the obtuse angle, first mounting panel 51 with the lamp body 1 bottom or circuit control box 6 connects, second mounting panel 52 with 2 diapire outsides of radiator are connected. By the arrangement, in the process of connecting the radiator 2 and the shell of the bracket 5, the intermediate transition plate 53 can play a role in buffering, and meanwhile, in the long-time use process, the intermediate transition plate 53 can also share part of pressure applied by the radiator 2 borne by the second mounting plate 52, so that the service life of the bracket 5 is prolonged.

The utility model discloses an integrated COB light source of packaging into RGBW RGBCW, with the lamp shade 3 that this light source cooperation was made by ya keli, give up prior art's lens and anti-light cup, only can also satisfy the required lighting condition of COB light source through lamp shade 3, reduced spare part, reduced whole manufacturing cost, be convenient for install, make this lamps and lanterns can use on the indoor desk lamp of house to do good atmosphere and light dual-purpose, reach optics and aesthetic perfection unified.

The embodiments provided by the present invention have been explained in detail above. The principle and the implementation of the present invention are explained by applying a specific embodiment, and the description of the above embodiment is only used to help understand the core idea of the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can also make several improvements and modifications, and these improvements and modifications also fall into the protection scope of the claims of the present invention.

Claims (10)

1. A hybrid light emitting luminaire, comprising:

the lamp shell (1), the lamp shell (1) is provided with an inner cavity, and the lamp shell (1) is provided with an opening (11);

the light source comprises a white light lamp arranged at an inner ring of the lamp panel and RGB lamps arranged at an outer ring of the lamp panel, or the white light lamp arranged at the outer ring of the lamp panel and the RGB lamps arranged at the inner ring of the lamp panel, and the white light lamp and the RGB lamps are integrated on the metal substrate to form the light source;

the heat radiator (2) penetrates through the opening (11) and is arranged in the inner cavity of the lamp shell (1), the heat radiator (2) is provided with a cavity for mounting the light source, the heat radiator (2) is provided with a light outlet (21), and the light outlet (21) and the opening (11) of the lamp shell (1) are correspondingly arranged;

lampshade (3), lampshade (3) with light-emitting outlet (21) of radiator (2) are connected, so that the light source with lampshade (3) are just to setting up, just lampshade (3) cover is established opening (11) department of lamp body (1), lampshade (3) orientation set up arc protruding structure (311) on the inner wall of light source, the surperficial arch formation arcwall face of arc protruding structure (311), the arcwall face is frosted surface or fog face, the arc cover body (31) outer edge and/or be close to the region on outer edge for the transparent area.

2. The hybrid light-emitting lamp as claimed in claim 1, further comprising a base (4), a bracket (5) and a circuit control box (6), wherein the bottom of the lamp housing (1) is mounted on the base (4), and the heat sink (2) is mounted in the inner cavity of the lamp housing (1) through the bracket (5); the circuit control box (6) is arranged in the inner cavity of the lamp shell (1), and a circuit board used for controlling the light source to work is arranged in the circuit control box (6).

3. The hybrid light-emitting lamp as claimed in claim 1, wherein the white light lamp and the RGB lamp are integrated on the metal substrate to form a COB light source, and the white light lamp is a warm white light lamp and/or a cold white light lamp.

4. A hybrid light-emitting lamp as claimed in any one of claims 1 to 3, wherein the lampshade (3) comprises an arc-shaped cover body (31) and an annular convex edge (32) extending along the axial direction of the arc-shaped cover body (31) at the circumferential edge of the arc-shaped cover body (31), the annular convex edge (32) extends towards the direction away from the lower end face of the arc-shaped cover body (31), and the arc-shaped protruding structure (311) is arranged at the center of the inner wall surface of the arc-shaped cover body (31).

5. The hybrid light-emitting lamp as claimed in claim 4, wherein the outer diameter of the annular flange (32) is smaller than the outer diameter of the arc-shaped cover (31), the bottom surface of the arc-shaped cover (31) contacts with the end surface of the lamp housing (1) at the opening (11), and the inner ring of the annular flange (32) is connected with the end of the heat sink (2) where the light-emitting port (21) is arranged.

6. A hybrid light-emitting lamp as claimed in claim 4, wherein the lamp shade (3) is connected to the heat sink (2) by a screw thread, an inner ring of the annular flange (32) of the lamp shade (3) is provided with an inner screw thread, an outer screw thread is provided at one end of the heat sink (2) where the light-emitting port (21) is provided, and the lamp shade (3) is connected to the heat sink (2) by screwing the inner screw thread and the outer screw thread.

7. A hybrid light-emitting lamp as claimed in any one of claims 1 to 3, wherein the lamp housing (1) has a spherical structure, the bottom of the lamp housing (1) has a planar structure, and the opening (11) of the lamp housing (1) is disposed at the side of the lamp housing (1) such that the included angle between the axial direction of the opening (11) and the axial direction of the bottom of the lamp housing (1) is an acute angle.

8. A hybrid light-emitting lamp according to any one of claims 1 to 3, wherein the heat sink (2) is obliquely arranged in the inner cavity of the lamp housing (1), and an included angle between a central axis of the heat sink (2) and a central axis of the bottom of the lamp housing (1) is an acute angle.

9. A hybrid light-emitting luminaire according to any of claims 1-3, wherein the light-exit opening (21) of the heat sink (2) is concentrically arranged with the opening (11) of the lamp housing (1).

10. The hybrid light-emitting lamp as claimed in claim 2, wherein the bracket (5) comprises a first mounting plate (51), a second mounting plate (52) and an intermediate transition plate (53) connecting the first mounting plate (51) and the second mounting plate (52), the second mounting plate (52) is disposed obliquely with respect to the first mounting plate (51), an included angle between the second mounting plate (52) and the first mounting plate (51) is an acute angle, an included angle between the intermediate transition plate (53) and the first mounting plate (51) is an obtuse angle, the first mounting plate (51) is connected to the bottom of the lamp housing (1) or the circuit control box (6), and the second mounting plate (52) is connected to the outside of the bottom wall of the heat sink (2).

Images