CN105987318A - Led lamp - Google Patents

Abstract

Provided is an LED lamp. The LED lamp comprises a heat dissipation assembly and a lighting assembly fixed on one side of the heat dissipation assembly. The heat dissipation assembly comprises multiple heat dissipation fins, lower ends of which jointly form a connection surface. The lighting assembly comprises a lamp board. One surface of the lamp board is equipped with multiple LED elements. A thermal conduction film is attached between the connection surface of the heat dissipation assembly and the other surface of the lamp board of the lighting assembly. Compared with the prior art, the LED lamp has following beneficial effects: through the thermal conduction film, the heat dissipation fins are directly arranged on the lighting assembly and directly exposed to the air; heat generated by the lighting assembly can be rapidly and directly transferred to the heat dissipation fins for dissipation so that effective heat radiation effect is obtained.

Description

LED lamp

Technical field

The present invention relates to a kind of LED lamp.

Background technology

In recent years, under the background that the worry that global energy is short raises once again, saving the energy is the major issue that we face.LED lamp has been come into indoor decorative lighting, commercial lighting and industrial lighting from outdoor Landscape Lighting, roadway illumination, and has been widely used in the environment such as Factory Building, warehouse, hall.And all there is a heat radiation difficult problem in LED lamp of the prior art, especially high-power LED lamp, when the effect of radiator is bad, heat produced by the LED chip that LED lamp uses cannot Quick diffusing, LED element temperature is caused to steeply rise, accelerate light decay, even damage LED element, shorten the LED lamp life-span.

Summary of the invention

In view of this, it is necessary to a kind of LED lamp that can the most effectively dispel the heat is provided.

A kind of LED lamp, including radiating subassembly and the luminescence component being fixed on described radiating subassembly side, wherein, described radiating subassembly includes some fin, the lower end of described fin is collectively forming joint face, described luminescence component includes lamp plate, and some LED element are installed on a surface of described lamp plate, and be sticked between another surface of the joint face of described radiating subassembly and the lamp plate of described luminescence component heat conduction film.

Compared to prior art, fin is directly arranged on described luminescence component by the LED lamp of the present invention by heat conduction film, and make fin be directly exposed in air, and then the heat making luminescence component produce quickly, directly can be transferred to fin and be dissipated, to reach the effect of the most effectively heat radiation.

Accompanying drawing explanation

Fig. 1 is the axonometric chart of LED lamp described in embodiments of the invention one.

Fig. 2 is the decomposed figure of LED lamp shown in Fig. 1.

Fig. 3 is the inversion figure of LED lamp shown in Fig. 2.

Fig. 4 is the decomposed figure of the radiating subassembly of LED lamp shown in Fig. 2.

Fig. 5 is the axonometric chart of LED lamp described in embodiments of the invention two.

Fig. 6 is the decomposed figure of LED lamp shown in Fig. 5.

Main element symbol description

Following detailed description of the invention will further illustrate the present invention in conjunction with above-mentioned accompanying drawing.

Detailed description of the invention

Embodiment one

Referring to Fig. 1 to Fig. 3, the LED lamp 100 that the present embodiment is provided includes radiating subassembly 10, luminescence component 20 and mounting assembly 30.Described luminescence component 20 is fixed on the side of described radiating subassembly 10, and described mounting assembly 30 is fixed on the opposite side of described radiating subassembly 10.

Please also refer to Fig. 4, described radiating subassembly 10 includes support 11 and some fin 12.Described fin 12 is arranged around described support 11.

Described support 11 can use aluminium extruded to make.Cylinder logical in described support 11 substantially, including medial wall 111 and lateral wall 112.Described medial wall 111 is enclosed and is set one middle through hole 115 of formation.Described support 11 also includes upper surface 113 and lower surface 114.Described upper surface 113 and lower surface 114 is the most dorsad and parallel.Described upper surface 113 is towards described mounting assembly 30, and described lower surface 114 is towards described luminescence component 20.Described support 11 is provided with some guide pillars 116 and some flanges 117.

Described middle through hole 115 runs through upper surface 113 and the lower surface 114 of described support 11.The direction of running through of described middle through hole 115 is perpendicular to upper surface 113 and the lower surface 114 of described support 11.In the present embodiment, described middle through hole 113 is in cylinder.

The medial wall 111 of support 11 is located at by described guide pillar 116.Described guide pillar 116 is that the medial wall 111 from support 11 the most inwardly protrudes out formation.In the present embodiment, described support 11 includes eight guide pillars 116.Each guide pillar 116 extends to lower surface 114 from the upper surface 113 of described support 11.The upper surface 113 extending perpendicularly to described support 11 of each guide pillar 116 and lower surface 114.Eight guide pillars 116 are spaced and are distributed evenly on described medial wall 11.In the present embodiment, each guide pillar 116 in 3/4ths cylinder.Described guide pillar 116 alternatively cuboid or other cross section are polygonal cylinder.

Each guide pillar 116 is formed with guide groove 1161.The inner surface of described guide groove 1161 can form female thread.Described guide groove 1161 is in order to connect and to fix described luminescence component 20 and mounting assembly 30.In the present embodiment, described guide groove 1161 runs through upper surface 113 and the lower surface 114 of described support 11.In the present embodiment, described guide groove 1161 in 3/4ths cylinder.Described guide groove 1161 is formed towards medial wall 111 depression away from medial wall 111 from described guide pillar 116.In other embodiments, described guide groove 1161 for be respectively formed at upper surface 113 and the blind hole of lower surface 114, and can also be conducted the most mutually.

Described flange 117 is located at the lateral wall 112 of described support 11.Described flange 117 is that the lateral wall 112 radially outward from described support 11 is formed.Each flange 117 extends to lower surface 114 from the upper surface 113 of described support 11.The upper surface 113 extending perpendicularly to described support 11 of each flange 117 and lower surface 114.Some flanges 117 are spaced and are distributed evenly on described lateral wall 112.A gap housing described fin 12 is formed between adjacent two flanges 117.

Each flange 117 and the lateral wall 112 of described support 11 collectively form a catching groove 118 in order to fixing described fin 12.In the present embodiment, described flange 117 is L-shaped.Described flange 117 and the lateral wall 112 of described support 11 enclose that to set the catching groove 118 of formation U-shaped jointly.It should be understood that in other embodiments, described flange 117 can also have other shape.

Described fin 12 is arranged around the lateral wall 112 of described support 11.Each fin 12 includes a lamellar body 121 and one folding piece 122.Described lamellar body 121 and described tabs 122 are mutually perpendicular to.The lamellar body 121 of each fin 12 is sticked on a flange 117, and the flanging 122 of adjacent two fin 12 is mutually held in the mouth conjunction and connected.

Each lamellar body 121 includes the first straight flange the 1211, second straight flange 1212 and arc-shaped side 1213.Described first straight flange 1211 and the second straight flange 1212 are mutually perpendicular to.Described first straight flange 1211 is parallel with the central shaft of described support 11.Described first straight flange 1211 fastens with the catching groove 118 of described support 11.Described second straight flange 1212 and the central axis of described support 11.Described arc-shaped side 1213 connects the first straight flange 1211 and the second straight flange 1212.Described lamellar body 121 is provided with some raised lines 123 and through hole 124.The opposite sides of described raised line 123 is connected with the opposite sides of described through hole 124.The other opposite sides of described raised line 123 opposite sides other with described through hole 124 separates to be formed the passage of air flowing, strengthens radiating effect.

Described tabs 122 is substantially in sector.One side (one of them fan-shaped radius) of described tabs 122 connects with the second straight flange 1212 of described lamellar body 121, i.e. described tabs 122 is that the second straight flange 1212 from described lamellar body 121 is vertically bent to form.The side edge length of described tabs 122 is less than the length of the second straight flange 1212 of described lamellar body 121.Described tabs 122 also is provided with the similar raised line 123 of some and described lamellar body 121 and through hole 124.

Described fin 12 also includes the first extension 125 and the second extension 126.Described first extension 125 and the second extension 126 are formed at the two edges of the first straight flange 1211 of described lamellar body 121, and the most described lamellar body 121 outward.Described first extension 125 is near described second straight flange 1212, and described second extension 126 is away from described second straight flange 1212.The side of described first extension 125 is provided with a cramp 127.Described cramp 127 is perpendicular to described first extension 125.In the present embodiment, the shape of described cramp 127 is similar to described raised line 123, but is smaller in size than described raised line 123.

When assembling described radiating subassembly 10: successively by the upper end of the lamellar body 121 of described fin 12 from the lower surface 114 of described support 11 straight up through the gap the adjacent two flanges 117 of described support 11 until the lower surface 114 of the tabs 122 of described fin 12 and described support 11 is affixed.

After described radiating subassembly 10 is completed, the side of the tabs 122 of described fin 12 connects with the opposite side of the tabs 122 of another described fin 12 adjacent, and the tabs 122 of fin 12 is held in the mouth conjunction successively and is collectively forming a joint face 13.Described joint face 13 is fitted with described luminescence component 20, to increase the contact area of fin 12 and luminescence component 20, adds radiating efficiency.In the present embodiment, described joint face 13 is the annulus centered by the central shaft of described support 11.The lamellar body 121 of described fin 12 is all fastened in the lateral wall 112 of described support 11 to be collectively forming the radiating fin group extended radially from described support 11.The external diameter of the annulus that the diameter of the excircle of this radiating fin group is formed more than described flanging 122.The cramp 127 of described fin 12 is placed in the catching groove 118 of described support 11, positions and tentatively fixes described fin 12 with this, and then limit the movement in radial directions of described fin 12.Certainly, the radiating subassembly 10 now assembled also needs further to be fixed.

The most referring also to Fig. 2 and Fig. 3, described luminescence component 20 includes lamp plate 21, reflector 22 and a lampshade 23.

Described lamp plate 21 is fixed on the lower surface 114 of the support 11 of described radiating subassembly 10.Described lamp plate 21 is a circular flat board.Described lamp plate 21 be centrally formed a perforation, this perforation communicates to wear wire (not shown) with the middle through hole 115 of the support 11 of described radiating subassembly 10.The diameter of described lamp plate 21 is roughly equal with the overall diameter of the radiating fin group of described radiating subassembly 10.Described lamp plate 21 is provided with some LED element 211.Described LED element 211 is circular arrangement around the center of described lamp plate 21.

Some first fixing holes 212 and the second fixing hole 213 and positioning port 214 it is additionally provided with on described lamp plate 21.Described first fixing hole 212 is spaced and uniform ring is arranged around the perforation of described lamp plate 21.Described first fixing hole 212 respectively with guide groove 1161 one_to_one corresponding of the guide pillar 116 of described support 11.Described second fixing hole 213 is arranged near the edge of described lamp plate 21.Described second fixing hole 213 is used for fixing described lampshade 23.Described second fixing hole 213 is spaced and uniform ring is arranged around described LED element 211.Described positioning port 214 caves inward from the edge of described lamp plate 21 formation.Described positioning port 214 is in fixing described lampshade 23 prelocalization.In the present embodiment, described lamp plate 21 is provided with two positioning ports 214.Each positioning port 214 takes the shape of the letter U.The line of described positioning port 214 is through the center of described lamp plate 21.

Described reflector 22 is fixed on the surface being equiped with LED element 211 of described lamp plate 21.Described reflector 22 is rounded, and its diameter is less than the diameter of described lamp plate 21.The central part of described reflector 22 is provided with the 3rd fixing hole 221 that the first fixing hole 212 of some and described lamp plate 21 is corresponding.Some reflectors 222 it are additionally provided with on described reflector 22.The quantity of described reflector 222 and arrangement are corresponding with LED element 211 on described lamp plate 21 with accommodating described LED element 211 respectively.In the present embodiment, described reflector 222 is the some through holes being arranged on reflector 22.The inwall of each through hole is obliquely installed, i.e. each reflector 222 internal diameter near described lamp plate 21 side, less than the internal diameter away from lamp plate 21 side, reflects with the light alignment lampshade 23 LED element 211 sent, thus is outwards penetrated by lampshade 23.

Described lampshade 23 is fixed on the surface being equiped with LED element 211 of described lamp plate 21, and described lampshade 23 is completely covered described lamp plate 21 and reflector 22.Described lampshade 23 is substantially round in shape, and its diameter is slightly larger than the external diameter of described lamp plate 21.Described lampshade 23 includes transmittance section 231 and a fixed part 232.The direction that described transmittance section 231 is directed away from lamp plate 21 from edge to central authorities is that arc line shaped protrudes.Described fixed part 232 is in circular and around described transmittance section 231.Described fixed part 232 and described transmittance section 231 surround a cavity 233 jointly in order to accommodating described reflector 22, add light by the distance arriving lampshade 23 after LED element 123 outgoing simultaneously, namely add the light sent by LED element 123 light mixing distance in LED lamp, so that the LED lamp 100 that embodiments of the invention are provided has good light-emitting uniformity.

LED lamp 100 provided by the present invention also includes waterproof apron 24.Described waterproof apron 24 is installed between described lamp plate 21 and described lampshade 23.Ringwise, its size is suitable with the fixed part 232 of described lampshade 23 for described waterproof apron 24.

Heat conduction film 40 also can be installed between described radiating subassembly 10 and luminescence component 20.Described heat conduction film 40 is located between described radiating subassembly 10 and described lamp plate 21.Described heat conduction film 40 has biadhesive, is attached at described lamp plate 21 respectively and does not installs between the surface of LED element 211 and the tabs 122 of described radiating subassembly 10.Described heat conduction film 40 is in annulus.Described heat conduction film 40 be centrally formed a perforation, this perforation communicates to wear wire (not shown) with the middle through hole 115 of the support 11 of described radiating subassembly 10.The external diameter of the annulus that the external diameter of described heat conduction film 40 surrounds equal to the tabs 122 of described fin 12.Described heat conduction film 40 is provided with the perforation that the first fixing hole 212 of some and described lamp plate 21 is corresponding.

When assembling described radiating subassembly 10 and described luminescence component 20:

The wherein one side of described heat conduction film 40 is pasted on described lamp plate 21 so that the center of described heat conduction film 40 and the center superposition of described lamp plate 21；The another side of described heat conduction film 40 is pasted on the annulus that the tabs 122 of described radiating subassembly 10 surrounds so that the center superposition of the center of described heat conduction film 40 and described support 11；Described lamp plate 21, heat conduction film 40 are fixed on the support 11 of described radiating subassembly 10 by the mode then using screw to connect.

Described reflector 22 is positioned on described lamp plate 21, each reflector 222 is made to house a LED element 211, and make the 3rd fixing hole 221 of described reflector 22 and described lamp plate 21 first fixing hole 212 one_to_one corresponding, use screw (not shown) to wear the guide groove 1161 of the 3rd fixing hole 221 of described reflector 22, the first fixing hole 212 of described lamp plate 21 and described support 11 to be fixed on described lamp plate 21 by described reflector 22, and described lamp plate 21 and heat conduction film 40 are further secured on the support 11 of described radiating subassembly 10.

Being positioned on the fixed part 232 of described lampshade 23 by described waterproof apron 24, be positioned on described lamp plate 21 by described lampshade 23, described lampshade 23 is fixed on described lamp plate 21 by the mode using screw to connect, and makes described waterproof apron 24 be fixed on therebetween.

Referring again to Fig. 2 and Fig. 3, described mounting assembly 30 includes fixed mount 31, installing rack 32 and the suspension ring 33 being fixed on described installing rack 32.A driving power supply 70 is fixed between described fixed mount 31 and installing rack 32.

Described fixed mount 31 includes the base plate 311 for connecting described radiating subassembly 10, for connecting two connecting plates 312 of described installing rack 32 and for fixing two gripper shoes 313 of described driving power supply 70.

Described base plate 311 is substantially square.The center of described base plate 311 is provided with a perforation, fixes a water joint 50 in this perforation.Described water joint 50 in hollow cylindrical in order to wear wire (not shown).Connecting hole it is additionally provided with in order to described base plate 311 to be fixed on the support 11 of described radiating subassembly 10 on described base plate 311.

In the present embodiment, described two connecting plates 312 extend formation straight up from the relative side of described base plate 311 respectively.The center of every a plate 312 is provided with connecting hole in order to connect described mounting bracket 32.

In the present embodiment, described two gripper shoes 313 include ramp extension and horizontal extension.Described ramp extension is that described horizontal extension continues horizontal-extending formation from the end of ramp extension respectively from another relative side the most obliquely outward formation simultaneously of described base plate 311.The horizontal extension of each gripper shoe 313 is fixing with power supply 70 to be connected.

In the present embodiment, described installing rack 32 takes the shape of the letter U.Described suspension ring 33 are fixed on bottom the U-shaped of described installing rack 32.The U-shaped side arm of described installing rack 32 is connected with described connecting plate 312 respectively.

A pad 60 it is additionally provided with between described mounting assembly 30 and described radiating subassembly 10.Described pad 60 is in annular.In the middle through hole 115 of the support 11 that described water joint 50 is plugged in described radiating subassembly 10 through described pad 60.The external diameter of described pad 60 is equal to the external diameter of the support 11 of described radiating subassembly 10.

When described mounting assembly 30 is installed:

First, pad 60 and the fixed support 31 being fixed with water joint 50 are sequentially placed in the upper end of described radiating subassembly 10, water joint 50 is made to pass in the middle through hole 115 of the support 11 that described pad 60 is plugged in described radiating subassembly 10, described base plate 311 and described pad 60 are fixed on the guide groove 1161 of the support 11 of described radiating subassembly 10 by employing screw (not shown), and make described pad 60 between described fixed mount 31 and described support 11.

Then, described power supply 70 is positioned over the horizontal extension of the gripper shoe 313 of described fixed mount 31, uses screw (not shown) to be fixed in two gripper shoes 313 of described fixed mount 31 by described driving power supply 70.

Then, it is soldered to described lamp plate 21 after the wire (not shown) of described power supply 70 side is sequentially passed through the central hole of the central hole of described water joint 50, the middle through hole 115 of described support 11, the central hole of described heat conduction film 40 and described lamp plate 21 and is equiped with the surface of LED element 211.

Finally, use screw (not shown) that the described installing rack 32 being fixed with suspension ring 33 is placed in the top of described fixed mount 31.

Embodiment two

The most referring also to Fig. 5 and Fig. 6, the mounting assembly 30 of the LED lamp 100 that mounting assembly 30a of LED lamp 100a that the present embodiment is provided is provided from first embodiment is different.Described mounting assembly 30a in the present embodiment includes that fixed plate 31a, a lamp are a 32a and lamp holder 33a.Described fixed plate 31a is fixed on the upper end of described radiating subassembly 10, and described lamp is fixed on 32a in described fixed plate 31a, and described lamp holder 33a is fixed on described lamp 32a upper end.

Described fixed plate 31a is annulus.In the present embodiment, described fixed plate 31a be centrally formed a perforation, described water joint 50 is fixed in this perforation.Connecting hole it is additionally provided with in order to described fixed plate 31a to be fixed on the support 11 of described radiating subassembly 10 in described fixed plate 31a.The edge of described fixed plate 31a is additionally provided with some fixing posts in order to fixing described lamp 32a and fixed plate 31a.

Described lamp 32a in logical tubaeform, including big opening end 321a and the osculum end 322a of the most described fixed plate 31a towards described fixed plate 31a.Described lamp is provided with a stud 323a the osculum end 322a convex of 32a.Described lamp is provided with, the medial wall of the big opening end 321a of 32a, the perforation that the fixing post of some and described fixed plate 31a is corresponding.

Described lamp holder 33a is the cylinder of one end open.The medial wall of described lamp holder 33a is provided with a female thread in order to the stud 323a of 32a is matched with described lamp.The lateral wall of described lamp holder 33a is provided with an external screw thread in order to connect external power source.

When described mounting assembly 30a is installed:

First, described pad 60 and fixed plate 31a are sequentially placed in the upper surface 113 of described radiating subassembly 10, water joint 50 is made to pass in the middle through hole 115 of the support 11 that described pad 60 is plugged in described radiating subassembly 10, then, use screw (not shown) that described fixed plate 31a and described pad 60 are fixed on the support 11 of described radiating subassembly 10, and make described pad 60 between described fixed plate 31a and described support 11.

Then, described lamp is positioned over the big opening end 321a of 32a the top of described fixed plate 31a, uses screw (not shown) 32a to be fixed in described fixed plate 31a described lamp.

Finally, described lamp holder 33a is installed on described lamp the osculum end 322a of 32a so that the female thread of described lamp holder 33a is meshed the stud 323a of 32a with described lamp.

Compared to prior art, the LED element 211 producing heat in the described LED lamp 100 and 100a of the present invention is fixed on described lamp plate 21, described lamp plate 21 is directly fixed on the lower end of described radiating subassembly 10 by heat conduction film 40 so that whole LED lamp 100 and 100a reaches lighter effect.

Meanwhile, described lamp plate 21 is also to be directly fixed on the tabs 122 of described fin 12 so that the heat that described luminescence component 20 produces can quickly, directly be transferred to described fin 12, and area of dissipation is big.Fin 12 in the described LED lamp 100 and 100a of the present invention is more directly exposed in air so that the heat being transferred to fin 12 can rapid dispersion.It is additionally provided with some raised lines 123 accelerating air circulation on described fin 12, further speeds up the radiating rate of described fin 12.

It is understood that for the person of ordinary skill of the art, can conceive according to the technology of the present invention and make other various corresponding changes and deformation, and all these change all should belong to the protection domain of the claims in the present invention with deformation.

Claims (10)

1. a LED lamp, including radiating subassembly and the luminescence component being fixed on described radiating subassembly side, it is characterized in that: described radiating subassembly includes some fin, the lower end of described fin is collectively forming joint face, described luminescence component includes lamp plate, installing some LED element on one surface of described lamp plate, be sticked between another surface of the joint face of described radiating subassembly and the lamp plate of described luminescence component heat conduction film.

2. LED lamp as claimed in claim 1, it is characterised in that: described radiating subassembly also includes support, and described some fin collar are around being arranged on described support, and described joint face is formed on the bottom that described some fin are mutually overlapped on described radiating subassembly.

3. LED lamp as claimed in claim 2, it is characterised in that: each fin includes that lamellar body and tabs, described lamellar body and tabs are mutually perpendicular to, and each lamellar body is plugged on described support, and the tabs of adjacent two fin is mutually held in the mouth conjunction and connected the described joint face of formation.

4. LED lamp as claimed in claim 3, it is characterized in that: described support in logical cylinder, the lateral wall of described support is equipped with some flanges, and the lamellar body of described fin is plugged between the adjacent two flanges of described support, and described joint face is the annulus around described support.

5. LED lamp as claimed in claim 4, it is characterized in that: described fin also includes the first extension, the side of described first extension is provided with cramp, and described flange and described lateral wall collectively form catching groove, and it is interior in order to fixing described fin that described cramp is placed in described catching groove.

6. LED lamp as claimed in claim 3, it is characterized in that: the lamellar body of described fin and tabs are provided with some raised lines and through hole, both sides relative with through hole, both sides that each raised line is relative are connected, described raised line additionally relative to both sides other with through hole, both sides separate to be formed the passage of air flowing.

7. LED lamp as claimed in claim 1, it is characterized in that: described luminescence component also includes a reflector and a lampshade, described reflector and described lampshade are in turn secured on the surface being equiped with LED element of described lamp plate, and described lampshade is completely covered described lamp plate and reflector.

8. LED lamp as claimed in claim 1, it is characterised in that: described LED lamp also includes that mounting assembly, described mounting assembly are fixed on the opposite side of described radiating subassembly.

9. LED lamp as claimed in claim 8, it is characterized in that: described mounting assembly includes a fixed mount, an installing rack and the suspension ring being fixed on described installing rack, described fixed mount is fixed on the upper end of the support of described radiating subassembly, and described installing rack is fixed on described fixed mount.

10. LED lamp as claimed in claim 8, it is characterized in that: described mounting assembly includes a fixed plate, a lamp handle and a lamp holder, described fixed plate is fixed on the upper end of the support of described radiating subassembly, described lamp is being fixed in described fixed plate, and described lamp holder is fixed on the upper end of described lamp handle by screw-threaded engagement.