CN103791356A

CN103791356A - LED lamp used for electric bicycle

Info

Publication number: CN103791356A
Application number: CN201410028605.1A
Authority: CN
Inventors: 张丽君
Original assignee: TAIZHOU LAO BAI XING MOTORCYCLES Co Ltd
Current assignee: Zhejiang common people Automobile Co., Ltd
Priority date: 2014-01-22
Filing date: 2014-01-22
Publication date: 2014-05-14
Anticipated expiration: 2034-01-22
Also published as: CN103791356B

Abstract

The invention relates to an LED lamp used for an electric bicycle. The LED lamp comprises transparent glass, an LED light source, an LED power source actuator and a lamp cup, wherein the lamp cup comprises an installing part, a lamp cup body, a substrate and a base, the installing part is arranged on the upper portion of the lamp cup body, and the substrate is arranged on the lower portion of the lamp cup body; inner space is limited by the transparent glass through the seal fit between a lamp cap and the installing part of the lamp cup; the LED light source and the LED power source actuator are arranged in the inner space, and the LED light source is arranged on the substrate of the lamp cup; a reflection covering film is glued to the inner wall of the lamp cup body through heat conduction glue. The LED lamp used for the electric bicycle has good heat dissipation performance, and while light-emitting efficiency is improved, the LED lamp is free of glare; the reflection covering layer is formed on the lamp cup body through gluing, not only is the technology simple, but also the LED lamp has improved heat resistance, durability and thermal conductance, and the LED lamp has an excellent reflection effect on visible light.

Description

The automobile-used LED lamp of electrical salf-walking

Technical field

The technical field that the invention belongs to LED illumination, in particular, the present invention relates to the automobile-used LED lamp of a kind of electrical salf-walking.

Background technology

Electric bicycle, refers to the Personal Transporter that the electromechanical integration of the systems such as motor, controller, battery and Displaying Meter has been installed on the basis of ordinary bicycle using battery as supplementary energy.Along with a large amount of consumption of the non-renewable resources such as oil, the threat that energy crisis and problem of environmental pollution day by day become a reality, has meanwhile also waken the mankind's environmental protection up and has realized, and energy-conserving and environment-protective and sustainable development have become the theme of current era development.The trip instrument of low-carbon (LC), low consumption and environmental protection becomes national governments and broad masses of the people's new pursuit.In this case, electric bicycle is to arise at the historic moment, and at once moves, and only passes through short tens development, and electric bicycle has obtained universal widely.And almost meanwhile, LED(light emitting diode) as a kind of solid-state semiconductor device that can be visible ray by electric energy conversion, because it has that the life-span is long, light efficiency is high, the advantage such as radiationless, shock resistance and low-power consumption, become trend therefore use LED lamp to throw light in lighting field.Object of the present invention is to develop a kind of LED light fixture that electric bicycle uses that is applicable to.

Summary of the invention

In order to realize goal of the invention of the present invention, the invention provides the automobile-used LED lamp of a kind of electrical salf-walking, it has stable mounting structure; radiator structure with improvement; when efficiency is given out light in raising, accomplish free from glare, protected driving people and pedestrian at light compared with the safety under dark condition.

The automobile-used LED lamp of electrical salf-walking of the present invention, comprises clear glass, LED light source, LED power supply driver and Lamp cup; It is characterized in that: described Lamp cup comprises installation portion, Lamp cup body, pedestal and base, and described installation portion is arranged on the top of described Lamp cup body, and described pedestal is arranged on the bottom of described Lamp cup body; Described clear glass is sealed and matched and is defined inner space by the installation portion of light cover and Lamp cup; Described LED light source and LED power supply driver are arranged in described inner space; Described LED light source is arranged on the pedestal of described Lamp cup, on the inwall of described Lamp cup body, is pasted with reflection overlay film by heat-conducting glue.

Wherein, described LED power supply driver is arranged on the base of described Lamp cup.

Wherein, between described LED light source and LED power supply driver, be connected by wire.

Wherein, on the pedestal of described Lamp cup and the outer surface of base, be provided with multiple radiating fins.

Wherein, on the base of described Lamp cup, be also provided with the connection jaws for connecting wire.

Wherein, described LED light source comprises aluminium base, is formed with patterning ceramic insulating layer on described aluminium base, is provided with multiple LED lamp pearls on described patterning ceramic insulating layer.

Wherein, described reflection overlay film is by the aluminium foil through anodized, and the superficial layer being formed on described aluminium foil forms.

The automobile-used LED lamp of electrical salf-walking of the present invention compared with prior art has following beneficial effect:

(1) the automobile-used LED lamp of electrical salf-walking of the present invention, by structural improvement, has adopted integral structure, high-intensity glass; and large-area radiating fin; when efficiency is given out light in raising, accomplish free from glare, protected driving people and pedestrian at light compared with the safety under dark condition.

(2) on Lamp cup body of the present invention, form reflective coating by bonding, not only technique is simple, but also has improved heat resistance, durability and thermal conductivity, and visible ray is had to excellent reflecting effect.

Accompanying drawing explanation

Fig. 1 is the decomposition texture schematic diagram of the automobile-used LED lamp of electrical salf-walking of the present invention.

The specific embodiment

Below with reference to embodiment and accompanying drawing, the automobile-used LED lamp of described electrical salf-walking is described in further detail.

As shown in Figure 1, the automobile-used LED lamp of electrical salf-walking described in the present embodiment, comprises safety glass 40, LED light source 20, LED power supply driver 30 and Lamp cup 10 that 5～15mm is thick; Described Lamp cup 10 is made up of aluminum or aluminum alloy, and it comprises installation portion 11, Lamp cup body 12, pedestal 13 and base 14, and described installation portion 11 is arranged on the top of described Lamp cup body 12, and described pedestal 13 is arranged on the bottom of described Lamp cup body 12; Described safety glass 40 is sealed and matched and is defined inner space by the installation portion 11 of light cover and Lamp cup 10; LED light source 20 and LED power supply driver 30 are arranged in described inner space; Described LED light source 20 is arranged on the pedestal 13 of described Lamp cup, on the inwall of described Lamp cup body 12, is pasted with reflection overlay film by fire resistant epoxy heat-conducting glue; Described LED power supply driver is arranged on the base of described Lamp cup, and to be conducive to heat radiation, set-up mode has welding, bonding, mechanical bond etc.; Between described LED light source 20 and LED power supply driver 30, be connected by wire; On the pedestal 13 of described Lamp cup and the outer surface of base, be provided with multiple radiating fins 15, the thickness of described radiating fin is 1～5mm, and radiating fin height is 10～30mm, and the distance between radiating fin is 5～10mm.On the base of described Lamp cup, be also provided with the connection jaws for connecting wire.As preferably, described LED light source comprises aluminium base, is formed with patterning ceramic insulating layer on described aluminium base, is provided with multiple LED lamp pearls on described patterning ceramic insulating layer, adopt the light-source structure of multiple lamp pearls can prevent dazzle, be conducive to keep pedestrains safety.

reflection overlay film

Described reflection overlay film is by aluminium foil and be formed on described aluminium foil (superficial layer of 20～100 μ on m) forms, described aluminium foil is through anodized, two surfaces at described aluminium foil are all formed with anodic alumina films, so not only be conducive to improve the caking property between reflection overlay film and Lamp cup body inwall, be also conducive to improve the reflectivity of described reflection overlay film to visible ray.The step of described anodized is as follows: first described aluminium foil (take 50 μ m as example) is carried out to pickling (with acidic cleaner AcidClean

uC, German Atotech limited company product), rinse and be dried by deionized water; Then be that in the treatment fluid of 10～12 ℃, current density is 0.1～0.2A/dm in liquid temperature ², electrolytic treatments 3～5min; The hydrogen peroxide of the oxalic acid that wherein said treatment fluid contains 10～12g/L, the sulfuric acid of 1.0～1.2g/L, 0.8～1.2g/L, the ammonium oxalate of 2.0～2.5g/L, the poly-aspartate of 3.2～3.5g/L, and the deionized water of surplus.When above-mentioned anodized, can make aluminum ions in liberal supplyly, and substantially eliminate depolarisation effect, can obtain fine and close anodic alumina films, and the thickness of anodic oxidation thickness be 1～2 μ m.

Anodized

Embodiment 1

The processing method of the treatment fluid described in the present embodiment is as follows: first with acidic cleaner AcidClean

atotech limited company of UC(Germany product) to aluminium foil, (50 μ m) carry out pickling, rinse and are dried afterwards by deionized water; Then be that in the treatment fluid of 10 ℃, current density is 0.1A/dm in liquid temperature ², electrolytic treatments 4min; The hydrogen peroxide of the oxalic acid that wherein said treatment fluid contains 10g/L, the sulfuric acid of 2.2g/L, 0.8g/L, the ammonium oxalate of 2.5g/L, the poly-aspartate of 3.2g/L, and the deionized water of surplus.Embodiment 2

atotech limited company of UC(Germany product) to aluminium foil, (50 μ m) carry out pickling, rinse and are dried afterwards by deionized water; Then be that in the treatment fluid of 10 ℃, current density is 0.2A/dm in liquid temperature ², electrolytic treatments 5min; The hydrogen peroxide of the oxalic acid that wherein said treatment fluid contains 12g/L, the sulfuric acid of 2.0g/L, 1.2g/L, the ammonium oxalate of 2.0g/L, the poly-aspartate of 3.5g/L, and the deionized water of surplus.Comparative example 1

The processing method of described treatment fluid is as follows: first with acidic cleaner AcidClean

atotech limited company of UC(Germany product) to aluminium foil, (50 μ m) carry out pickling, rinse and are dried afterwards by deionized water; Then be that in the treatment fluid of 10 ℃, current density is 0.1A/dm in liquid temperature ², electrolytic treatments 4min; The ammonium oxalate of the sulfuric acid that wherein said treatment fluid contains 12g/L, the hydrogen peroxide of 0.8g/L, 2.5g/L, the thiocarbamide of 2.5g/L, and the deionized water of surplus.

Comparative example 2

atotech limited company of UC(Germany product) to aluminium foil, (50 μ m) carry out pickling, rinse and are dried afterwards by deionized water; Then be that in the treatment fluid of 10 ℃, current density is 0.2A/dm in liquid temperature ², electrolytic treatments 5min; The ammonium oxalate of the oxalic acid that wherein said treatment fluid contains 12g/L, the hydrogen peroxide of 0.8g/L, 2.5g/L, the thiocarbamide of 2.5g/L, and the deionized water of surplus.

To utilize ZB6258 fire resistant epoxy heat-conducting glue to bond through embodiment 1-2 and comparative example 1-2 aluminium foil after treatment and described Lamp cup body, the thickness of adhesive layer be 10 μ m; Measure its peel strength.Wherein, process through embodiment 1-2, peel strength is greater than 1.5N/mm; Process through comparative example 1-2, peel strength is 0.5～0.8N/mm.

superficial layer

Described superficial layer is the MDI by 20.5～21.0wt%, the PEG1000 of 12.5～13.0wt%, the PTMG1000 of 3.8～4.0wt%, 1 of 1.8～2.0wt%, 4-butanediol, the ethoxyquin Bisphenol F diacrylate of 1.1～1.3wt%, the adjacent phenyl benzene ethoxy propylene acid esters of 1.6～1.8wt%, the defoamer of 0.1～0.2wt%, the levelling agent of 0.1～0.2wt%, the catalyst of 0.20～0.25wt%, the Chinese white of 15.0～16.0wt%, the dimethyl carbonate of 10～12wt% and the isopropyl alcohol of surplus prepare polyurethane prepolymer, then prepare in aluminium foil top casting or coating.Described Chinese white is one or more in zinc oxide, titanium dioxide or alundum (Al2O3).

Embodiment 3

On the aluminium foil of processing through embodiment 1, form the thick superficial layer of 20 μ m, it is the MDI by 20.5wt%, the PEG1000 of 12.5wt%, the PTMG1000 of 4.0wt%, 1 of 1.8wt%, 4-butanediol, the ethoxyquin Bisphenol F diacrylate of 1.2wt%, the adjacent phenyl benzene ethoxy propylene acid esters of 1.6wt%, the defoamer BYK-028 of 0.15wt%, the levelling agent BYK-346 of 0.15wt%, the dibutyl tin laurate of 0.20wt%, the titanium dioxide of 15.0wt% (average grain diameter be 2 μ m), the dimethyl carbonate of 10wt% and the isopropyl alcohol of surplus are under the mixing speed of 300～400 revs/min, stir and within 30 minutes, obtain polyurethane prepolymer, then after coating preparation is dry, can obtain reflective overlay film.

Embodiment 4

On the aluminium foil of processing through embodiment 2, form the thick superficial layer of 20 μ m, it is the MDI by 21.0wt%, the PEG1000 of 13.0wt%, the PTMG1000 of 4.0wt%, 1 of 2.0wt%, 4-butanediol, the ethoxyquin Bisphenol F diacrylate of 1.2wt%, the adjacent phenyl benzene ethoxy propylene acid esters of 1.8wt%, the defoamer BYK-028 of 0.15wt%, the levelling agent BYK-346 of 0.15wt%, the dibutyl tin laurate of 0.20wt%, the titanium dioxide of 16.0wt% (average grain diameter be 2 μ m), the dimethyl carbonate of 10wt% and the isopropyl alcohol of surplus are under the mixing speed of 300～400 revs/min, stir and within 30 minutes, obtain polyurethane prepolymer, then after coating preparation is dry, can obtain reflective overlay film.

Comparative example 3

On the aluminium foil of processing through comparative example 1, form the thick superficial layer of 20 μ m, it is the MDI by 20.5wt%, the PEG1000 of 12.5wt%, the PTMG1000 of 4.0wt%, 1 of 1.8wt%, 4-butanediol, the ethoxyquin Bisphenol F diacrylate of 1.2wt%, the adjacent phenyl benzene ethoxy propylene acid esters of 1.6wt%, the defoamer BYK-028 of 0.15wt%, the levelling agent BYK-346 of 0.15wt%, the dibutyl tin laurate of 0.20wt%, the titanium dioxide of 15.0wt% (average grain diameter be 2 μ m), the dimethyl carbonate of 10wt% and the isopropyl alcohol of surplus are under the mixing speed of 300～400 revs/min, stir and within 30 minutes, obtain polyurethane prepolymer, then after coating preparation is dry, can obtain reflective overlay film.

Comparative example 4

On the aluminium foil of processing through comparative example 2, form the thick superficial layer of 20 μ m, it is the MDI by 20.5wt%, the PEG1000 of 12.5wt%, the PTMG1000 of 4.0wt%, 1 of 1.8wt%, 4-butanediol, the ethoxyquin Bisphenol F diacrylate of 1.2wt%, the adjacent phenyl benzene ethoxy propylene acid esters of 1.6wt%, the defoamer BYK-028 of 0.15wt%, the levelling agent BYK-346 of 0.15wt%, the dibutyl tin laurate of 0.20wt%, the titanium dioxide of 15.0wt% (average grain diameter be 2 μ m), the dimethyl carbonate of 10wt% and the isopropyl alcohol of surplus are under the mixing speed of 300～400 revs/min, stir and within 30 minutes, obtain polyurethane prepolymer, then after coating preparation is dry, can obtain reflective overlay film.

Comparative example 5

On the aluminium foil of processing through embodiment 1, form the thick superficial layer of 20 μ m, it is the MDI by 20.5wt%, the PEG1000 of 12.5wt%, the PTMG1000 of 4.0wt%, 1 of 1.8wt%, 4-butanediol, the adjacent phenyl benzene ethoxy propylene acid esters of 1.6wt%, the defoamer BYK-028 of 0.15wt%, the levelling agent BYK-346 of 0.15wt%, the dibutyl tin laurate of 0.20wt%, the titanium dioxide of 15.0wt% (average grain diameter be 2 μ m), the dimethyl carbonate of 10wt% and the isopropyl alcohol of surplus are under the mixing speed of 300～400 revs/min, stir and within 30 minutes, obtain polyurethane prepolymer, then after coating preparation is dry, can obtain reflective overlay film.

Comparative example 6

Comparative example 7

On the aluminium foil of processing through embodiment 1, form the thick superficial layer of 20 μ m, it is the MDI by 20.5wt%, the PEG1000 of 12.5wt%, the PTMG1000 of 4.0wt%, 1 of 1.8wt%, 4-butanediol, the defoamer BYK-028 of 0.15wt%, the levelling agent BYK-346 of 0.15wt%, the dibutyl tin laurate of 0.20wt%, the titanium dioxide of 15.0wt% (average grain diameter be 2 μ m), the dimethyl carbonate of 10wt% and the isopropyl alcohol of surplus are under the mixing speed of 300～400 revs/min, stir and within 30 minutes, obtain polyurethane prepolymer, then after coating preparation is dry, can obtain reflective overlay film.

The visible light transmissivity of the reflective overlay film that test implementation example 3～4 and comparative example 3～7 prepare; Then utilize the high-pressure sodium lamp (ultraviolet emission spectrum wavelength: 250～350nm) of 400W, the irradiation distance treatment with irradiation 500h with respect to described overlay film with 30cm, and then measure the reflectivity of its visible ray; Test result is as shown in table 1.

Table 1

For the ordinary skill in the art; specific embodiment is just exemplarily described the present invention by reference to the accompanying drawings; obviously specific implementation of the present invention is not subject to the restrictions described above; as long as adopted the improvement of the various unsubstantialities that method of the present invention design and technical scheme carry out; or without improving, design of the present invention and technical scheme are directly applied to other occasion, all within protection scope of the present invention.

Claims

1. the automobile-used LED lamp of electrical salf-walking, comprises clear glass, LED light source, LED power supply driver and Lamp cup; It is characterized in that: described Lamp cup comprises installation portion, Lamp cup body, pedestal and base, and described installation portion is arranged on the top of described Lamp cup body, and described pedestal is arranged on the bottom of described Lamp cup body; Described clear glass is sealed and matched and is defined inner space by the installation portion of light cover and Lamp cup; Described LED light source and LED power supply driver are arranged in described inner space; Described LED light source is arranged on the pedestal of described Lamp cup, on the inwall of described Lamp cup body, is pasted with reflection overlay film by heat-conducting glue.

2. the automobile-used LED lamp of electrical salf-walking according to claim 1, is characterized in that: described LED power supply driver is arranged on the base of described Lamp cup.

3. the automobile-used LED lamp of electrical salf-walking according to claim 2, is characterized in that: between described LED light source and LED power supply driver, be connected by wire.

4. the automobile-used LED lamp of electrical salf-walking according to claim 3, is characterized in that: on the base of described Lamp cup, be also provided with the connection jaws for connecting wire.

5. the automobile-used LED lamp of electrical salf-walking according to claim 4, is characterized in that: on the pedestal of described Lamp cup and the outer surface of base, be provided with multiple radiating fins.

6. the automobile-used LED lamp of electrical salf-walking according to claim 5, is characterized in that: described LED light source comprises aluminium base, is formed with patterning ceramic insulating layer on described aluminium base, is provided with multiple LED lamp pearls on described patterning ceramic insulating layer.

7. the automobile-used LED lamp of electrical salf-walking according to claim 5, is characterized in that: described reflection overlay film is by the aluminium foil through anodized, and the superficial layer being formed on described aluminium foil forms.

8. the automobile-used LED lamp of electrical salf-walking according to claim 7, is characterized in that: described anodized refers in liquid temperature is the treatment fluid of 10～12 ℃, take current density as 0.1～0.2A/dm ²condition under electrolytic treatments 3～5min; The hydrogen peroxide of the oxalic acid that wherein said treatment fluid contains 10～12g/L, the sulfuric acid of 1.0 ~ 1.2g/L, 0.8～1.2g/L, the ammonium oxalate of 2.0 ~ 2.5g/L, the poly-aspartate of 3.2 ~ 3.5g/L, and the deionized water of surplus.

9. the automobile-used LED lamp of electrical salf-walking according to claim 7, it is characterized in that: described superficial layer is the MDI by 20.5 ~ 21.0wt%, the PEG1000 of 12.5 ~ 13.0wt%, the PTMG1000 of 3.8 ~ 4.0wt%, 1 of 1.8 ~ 2.0wt%, 4-butanediol, the ethoxyquin Bisphenol F diacrylate of 1.1 ~ 1.3wt%, the adjacent phenyl benzene ethoxy propylene acid esters of 1.6 ~ 1.8wt%, the defoamer of 0.1 ~ 0.2wt%, the levelling agent of 0.1 ~ 0.2wt%, the catalyst of 0.20 ~ 0.25wt%, the Chinese white of 15.0 ~ 16.0wt%, the dimethyl carbonate of 10 ~ 12wt% and the isopropyl alcohol of surplus prepare polyurethane prepolymer, then prepare in aluminium foil top casting or coating.

10. the automobile-used LED lamp of electrical salf-walking according to claim 9, is characterized in that: described Chinese white is one or more in zinc oxide, titanium dioxide or alundum (Al2O3).