CN106382561A

CN106382561A - LED lamp with fast heat dissipation and controllable light emitting angle

Info

Publication number: CN106382561A
Application number: CN201610743050.8A
Authority: CN
Inventors: 吴素娟
Original assignee: Zhongshan Nuodun Scientific Research Technology Service Co Ltd
Current assignee: Zhongshan Nuodun Scientific Research Technology Service Co Ltd
Priority date: 2015-08-28
Filing date: 2016-08-28
Publication date: 2017-02-08
Also published as: CN106287573A; CN106247178A; CN106382483A; CN106369309A; CN106369302A; CN106369464A; CN106369427A; CN106382565A; CN106369445A; CN106369320A; CN106382608A; CN106287574A; CN106382480A; CN106369313A; CN106322134A; CN106641769A; CN106369555A; CN106369459A; CN106338009A; CN106322302A

Abstract

The invention discloses an LED lamp with fast heat dissipation and controllable light-emitting angle, which comprises a supporting base, wherein connecting rods are respectively arranged at two sides of the upper end of the supporting base, an LED lamp device capable of swinging relative to the connecting rods so as to adjust the light-emitting angle is arranged between the connecting rods, an adjusting bolt capable of fixing the LED lamp device is arranged on the connecting rods, the LED lamp device comprises a radiator, and an installation groove is arranged at the upper end of the radiator, and the LED lamp is characterized in that: the LED lamp is characterized in that a PCB is arranged in the mounting groove, and the PCB is provided with LED lamp beads. The invention aims to overcome the defects in the prior art and provide the LED lamp with quick heat dissipation and controllable light-emitting angle.

Description

A kind of rapid heat dissipation and the controlled LED of rising angle

Technical field

The present invention relates to a kind of rapid heat dissipation and the controlled LED of rising angle.

Background technology

Existing light fixture irradiating angle is typically all fixing it is impossible to meet the demand of user.In addition existing LED Lamp, typically adopts the radiator heat-dissipation of solid shape, in order to increase area of dissipation, radiating of gathering typically on the outer wall of radiator Fin, but in radiation processes, heat-dense is in radiator outer wall, and radiating effect is not ideal, thus having had a strong impact on its use Life-span.

In addition the volume being currently used for the radiator of LED is relatively large, needs larger memory space, increases and transports into This.

So existing LED needs to be further improved.

Content of the invention

The invention aims to overcoming weak point of the prior art, a kind of rapid heat dissipation being provided and rising angle can The LED of control.

In order to achieve the above object, the present invention adopts below scheme：

A kind of rapid heat dissipation and the controlled LED of rising angle, include support base, in described support base upper end both sides It is respectively equipped with connecting rod, be provided between described connecting rod and can relatively connecting rod swing thus adjusting the LED dress of rising angle Put, the regulating bolt that LED lamp device can be made fixing is provided with described connecting rod, described LED lamp device includes radiator, Described radiator upper end be provided with mounting groove it is characterised in that：It is provided with pcb board in described mounting groove, described pcb board is provided with LED lamp bead, described radiator includes radiating cylinder body, is provided with some radiating fins, described on described radiating cylinder body outer wall It is provided with the radiator body that can rotate with respect to radiating cylinder body in radiating cylinder body, in described radiator body, be provided with cavity, The inner wall even distribution of described radiator body has radiating fin, is provided with multiple can crispaturaing in radiating on described radiator body outer wall Radiating thin slice in device main body, is provided with multiple gathering sills on described radiating cylinder body, and described radiating thin slice is arranged on described guiding In groove, it is provided with connecting portion in described radiating cylinder body bottom, described connecting portion is provided with air-vent, described connecting portion is provided with Exhaust fan device.

A kind of rapid heat dissipation and the controlled LED of rising angle are it is characterised in that described exhaust fan device bag as above Include ventilative mounting seat, in described ventilative mounting seat, be provided with fan.

A kind of rapid heat dissipation and the controlled LED of rising angle are it is characterised in that on described radiating cylinder body as above End inwall is provided with connection concave station, is provided with connection boss in described radiator body upper end, and described connection boss is movably arranged on even Connect in concave station, described mounting groove is arranged on connection boss.

A kind of rapid heat dissipation and the controlled LED of rising angle are it is characterised in that in described radiator body as above End is provided with the knob that can order about radiator body rotation.

A kind of rapid heat dissipation and the controlled LED of rising angle are it is characterised in that outside described radiating cylinder body as above Louvre inside and outside radiating cylinder body is communicated with wall.

A kind of rapid heat dissipation and controlled LED of rising angle is it is characterised in that described gathering sill runs through as above The upper end of radiating cylinder body.

As above a kind of rapid heat dissipation and the controlled LED of rising angle it is characterised in that described radiating thin slice with dissipate Hot device main body is integrally formed.

A kind of rapid heat dissipation and the controlled LED of rising angle are it is characterised in that outside described connection boss as above Bearing is arranged with wall.

In sum, the present invention with respect to prior art its advantage is：

The present invention can structure simple, the radiating thin slice tensible on radiator body, effective increasing heat radiation area, warm Amount is delivered to away from expandable type radiator, thus greatly improving radiating effect.In the present invention, radiating thin slice can be crispaturaed in radiating Device body outer wall, thus reducing volume, being easy to deposit and transporting.

Brief description

Fig. 1 is the generalized section of the present invention；

Fig. 2 is the schematic diagram of support base of the present invention and connecting rod；

Fig. 3 is the schematic perspective view of radiator of the present invention；

Fig. 4 is the schematic cross-section of radiator of the present invention.

Specific embodiment

With reference to specific embodiment, the invention will be further described：

A kind of rapid heat dissipation and the controlled LED of rising angle, include support base 300, described as shown in Figures 1 to 4 Support base 300 upper end is respectively provided on two sides with connecting rod 3001, and being provided between described connecting rod 3001 can relative connecting rod 3001 swing thus adjusting the LED lamp device 800 of rising angle, and being provided with described connecting rod 3001 to make LED lamp device 800 Fixing regulating bolt 3002, is provided with adjustment hole, described regulating bolt 3002 is arranged on regulation in the hole in LED lamp device 800, After LED lamp device 800 is adjusted to required rising angle, just can be by LED lamp device 800 by reversing regulating bolt 3002 It is fixed in connecting rod 3001 by required angle, described LED lamp device 800 includes radiator 100, in described radiator 100 Upper end is provided with mounting groove 101, is provided with pcb board 102 in described mounting groove 101, is provided with LED lamp bead on described pcb board 102 103, described radiator 100 includes radiating cylinder body 1, is provided with some radiating fins 11, in institute on described radiating cylinder body 1 outer wall State and in radiating cylinder body 1, be provided with the radiator body 2 that can rotate with respect to radiating cylinder body 1, in described radiator body 2, be provided with sky , there is radiating fin 11 in chamber 21 in the inner wall even distribution of described radiator body 2, is provided with multiple on described radiator body 2 outer wall Can crispatura the radiating thin slice 3 on radiator body 2, multiple gathering sills 4 are provided with described radiating cylinder body 1, described radiating is thin Piece 3 is arranged in described gathering sill 4, is provided with connecting portion 9 in described radiating cylinder body 1 bottom, is provided with radiating on described connecting portion 9 Hole 8, is provided with exhaust fan device 10 on described connecting portion 9.

Exhaust fan device 10 of the present invention includes ventilative mounting seat 1001, is provided with described ventilative mounting seat 1001 Fan 1002.

It is provided with connection concave station 5 in described radiating cylinder body 1 upper end inwall in the present invention, set in described radiator body 2 upper end There is connection boss 6, described connection boss 6 is movably arranged in connection concave station 5, and described mounting groove 101 is arranged on connection boss 6 On.The partial heat of radiator body 2 passes through connection boss 6 and is delivered to radiating cylinder body 1, thus strengthening radiating effect.

It is arranged with bearing on described connection boss 6 outer wall in the present invention.

It is provided with, in described radiator body 2 end, the knob 7 that radiator body 2 rotation can be ordered about in the present invention.This In bright, the stretching, extension of radiating thin slice 3 can be controlled by turn knob portion 7 and crispatura.

Louvre 8 inside and outside radiating cylinder body 1 is communicated with the present invention on described radiating cylinder body 1 outer wall.Described dissipates Hot hole 8 is conducive to heat exchange inside and outside radiating cylinder body 1, improves radiating effect.

Heretofore described gathering sill 4 runs through the upper end of radiating cylinder body 1.Radiating cylinder body 1 and radiating thin slice 3 install when Wait, only radiating thin slice 3 need to be placed sequentially in gathering sill 4, then rotation heat sink main body 2 makes radiating thin slice 3 crispatura storage On radiator body 2, in the present invention, in radiating thin slice 3 end, can limited block be set, prevent radiating thin slice 3 from excessively crispaturaing.

It is provided with connecting portion 9 in described radiating cylinder body 1 lower end in the present invention, be provided with scattered in the present invention on described connecting portion 9 Hot hole 8.Good heat dissipation effect.

Heretofore described radiating thin slice 3 is integrally formed with radiator body 2.

The one of which implementation of the present invention, described radiator body 2 and radiating thin slice 3 are by foam aluminium alloy material Material is made, and described foamed Al-allov is composed of the following components by weight percentage：

Alundum (Al2O3) 10-45%

Zinc oxide 15-30%

Magnesium powder 5-35%

Graphite 8-30%.

Embodiment 1

Foamed Al-allov of the present invention is composed of the following components by weight percentage：

Alundum (Al2O3) 10%

Zinc oxide 30%

Magnesium powder 35%

Graphite 25%.

Embodiment 2

Alundum (Al2O3) 10%

Zinc oxide 25%

Magnesium powder 35%

Graphite 30%.

Embodiment 3

Alundum (Al2O3) 45%

Zinc oxide 15%

Magnesium powder 10%

Graphite 30%.

Embodiment 4

Alundum (Al2O3) 45%

Zinc oxide 25%

Magnesium powder 5%

Graphite 25%.

Heretofore described radiator body 2 and radiating thin slice 3 can also be aluminium alloy or copper.

It is coated with thermal dispersant coatings on described radiator outer wall in the present invention, effectively strengthen the radiating effect of radiator.This Invention thermal dispersant coatings include following components by weight：

The invention is further illustrated by the following examples thermal dispersant coatings：

Embodiment 1

Thermal dispersant coatings of the present invention include following components by weight：

The organic siliconresin of modified Nano particle is prepared by the following method：

A, take MTES 40 weight portion, add the Catalyzed by Formic Acid adding 0.06 weight portion in 600 parts of water Agent, hydrolyzes 1 hour at 0 DEG C, is warming up to 70 DEG C and carries out polymerisation, reaction carries out vacuum distillation after terminating, obtains organosilicon Resin；

B, by the organic siliconresin in step A, 1- Trifluoromethyl-1,3 butadiene 8 weight portion, titanate catalyst 0.1 weight Amount part and ethyl acetate 10 weight portion mix, and under the protection of argon gas, are heated to 100 DEG C of dehydration condensations 1 hour, obtain Modified organic silicone resin；

C, the modified organic silicone resin in step B is warming up to 75 DEG C, adds 2 parts of silester to react 1 hour, reaction knot Lower the temperature after bundle, vacuum distillation removes solvent, obtains final product the organic siliconresin comprising modified Nano particle.

Wherein said polyether-containing aminopolysiloxane is prepared as follows method, comprises the steps：

S1：Equipped with agitator, condenser pipe, the there-necked flask of thermometer, add 300 weight portion prestox ring four silica Alkane, stirring, it is warming up to 100 DEG C, adds catalyst TMAH 0.15 weight portion, be incubated 20min, add coupling agent N- β (aminoethyl)-γ-aminopropyltriethoxy dimethoxy silane 18 weight portion, 100 DEG C of temperature control, 6 hours, obtain amido silicon oil；

S2：Equipped with the amino in agitator, condenser pipe, the there-necked flask of thermometer, adding 180 weight portion step A synthesis Silicone oil, 130 parts by weight of activated polyethers, 90 parts by weight of isopropyl alcohol, at 70 DEG C, carry out back flow reaction, to reactant transparent after, followed by Continuation of insurance temperature 4 hours, finally under the conditions of 0.005MPa, cooling decompression sloughs isopropanol, obtains final product.

The CNT of described surface hydroxylation is prepared by the following method：

By multi-walled carbon nano-tubes and potassium hydroxide by weight for 1 in ball grinder:20 ratio mixing, plus appropriate second Alcohol, ball milling, after 12 hours, is washed with deionized to neutrality, obtains compound, and compound is put in vacuum drying chamber at 100 DEG C It is dried 12 hours, obtain final product.

Described solvent is dimethylbenzene and methyl iso-butyl ketone (MIBK) compares 2 according to weight：1 mixture.

The preparation method of heat radiation coating of the present invention：

After epoxy resin, acrylic resin, the organic siliconresin comprising modified Nano particle, solvent mixing, it is warming up to 40 DEG C stir, the CNT of addition surface hydroxylation, polyether-containing aminopolysiloxane, Al-Mg alloy powder, aluminium nitride, stirring Uniform mixture, described mixture is added in paint grinder mill and be ground to 30-50 μm, ultrasonic disperse uniformly, adds poly-vinegar Vinyl acetate stirs.

Embodiment 2

A, take MTES 60 weight portion, add the Catalyzed by Formic Acid agent adding 0.8 weight portion in 900 parts of water, Hydrolyze 5 hours at 5 DEG C, be warming up to 90 DEG C and carry out polymerisation, reaction carries out vacuum distillation after terminating, obtains organosilicon tree Fat；

B, by the organic siliconresin in step A, 1- Trifluoromethyl-1,3 butadiene 18 weight portion, titanate catalyst 0.6 Weight portion and ethyl acetate 25 weight portion mix, and under the protection of argon gas, are heated to 120 DEG C of dehydration condensations 3 hours, Obtain modified organic silicone resin；

C, the modified organic silicone resin in step B is warming up to 95 DEG C, adds 14 parts of silester to react 2 hours, reaction Lower the temperature after end, vacuum distillation removes solvent, obtains final product the organic siliconresin comprising modified Nano particle.

S1：Equipped with agitator, condenser pipe, the there-necked flask of thermometer, add 500 weight portion prestox ring four silica Alkane, stirring, it is warming up to 125 DEG C, adds catalyst TMAH 0.35 weight portion, be incubated 40min, add coupling agent N- β (aminoethyl)-γ-aminopropyltriethoxy dimethoxy silane 22 weight portion, 125 DEG C of temperature control, 6 hours, obtain amido silicon oil；

S2：Equipped with the amino in agitator, condenser pipe, the there-necked flask of thermometer, adding 220 weight portion step A synthesis Silicone oil, 180 parts by weight of activated polyethers, 120 parts by weight of isopropyl alcohol, at 95 DEG C, carry out back flow reaction, to reactant transparent after, then Continue insulation 6 hours, finally cooling decompression sloughs isopropanol under the conditions of 0.01MPa, obtains final product.

By multi-walled carbon nano-tubes and potassium hydroxide by weight for 1 in ball grinder:30 ratio mixing, plus appropriate second Alcohol, ball milling, after 24 hours, is washed with deionized to neutrality, obtains compound, and compound is put in vacuum drying chamber at 130 DEG C It is dried 16 hours, obtain final product.

The preparation method of heat radiation coating of the present invention：

After epoxy resin, acrylic resin, the organic siliconresin comprising modified Nano particle, solvent mixing, it is warming up to 50 DEG C stir, the CNT of addition surface hydroxylation, polyether-containing aminopolysiloxane, Al-Mg alloy powder, aluminium nitride, stirring Uniform mixture, described mixture is added in paint grinder mill and be ground to 30-50 μm, ultrasonic disperse uniformly, adds poly-vinegar Vinyl acetate stirs.

Embodiment 3

A, take MTES 50 weight portion, add the Catalyzed by Formic Acid agent adding 0.3 weight portion in 750 parts of water, Hydrolyze 3 hours at 2 DEG C, be warming up to 80 DEG C and carry out polymerisation, reaction carries out vacuum distillation after terminating, obtains organosilicon tree Fat；

B, by the organic siliconresin in step A, 1- Trifluoromethyl-1,3 butadiene 12 weight portion, titanate catalyst 0.3 Weight portion and ethyl acetate 15 weight portion mix, and under the protection of argon gas, are heated to 110 DEG C of dehydration condensations 2 hours, Obtain modified organic silicone resin；

C, the modified organic silicone resin in step B is warming up to 85 DEG C, adds 6 parts of silester to react 1.5 hours, reaction Lower the temperature after end, vacuum distillation removes solvent, obtains final product the organic siliconresin comprising modified Nano particle.

S1：Equipped with agitator, condenser pipe, the there-necked flask of thermometer, add 400 weight portion prestox ring four silica Alkane, stirring, it is warming up to 110 DEG C, adds catalyst TMAH 0.25 weight portion, be incubated 30min, add coupling agent N- β (aminoethyl)-γ-aminopropyltriethoxy dimethoxy silane 20 weight portion, 110 DEG C of temperature control, 6 hours, obtain amido silicon oil；

S2：Synthesize equipped with agitator, condenser pipe, the there-necked flask of thermometer, adding 180-220 weight portion step A Amido silicon oil, the parts by weight of activated polyethers of 130-180,90-120 parts by weight of isopropyl alcohol, at 70～95 DEG C, carry out back flow reaction, extremely After reactant is transparent, it is further continued for being incubated 4-6 hour, finally under the conditions of 0.005-0.01MPa, cooling decompression sloughs isopropanol, that is, ?.

By multi-walled carbon nano-tubes and potassium hydroxide by weight for 1 in ball grinder:25 ratio mixing, plus appropriate second Alcohol, ball milling, after 18 hours, is washed with deionized to neutrality, obtains compound, and compound is put in vacuum drying chamber at 120 DEG C It is dried 14 hours, obtain final product.

The preparation method of heat radiation coating of the present invention：

After epoxy resin, acrylic resin, the organic siliconresin comprising modified Nano particle, solvent mixing, it is warming up to 45 DEG C stir, the CNT of addition surface hydroxylation, polyether-containing aminopolysiloxane, Al-Mg alloy powder, aluminium nitride, stirring Uniform mixture, described mixture is added in paint grinder mill and be ground to 30-50 μm, ultrasonic disperse uniformly, adds poly-vinegar Vinyl acetate stirs.

Embodiment 4

The wherein organic siliconresin of modified Nano particle, polyether-containing aminopolysiloxane, solvent and heat radiation coating of the present invention Preparation method all in the same manner as in Example 3.

Embodiment 5

Embodiment 6

Embodiment 7

Embodiment 8

Embodiment 9

Embodiment 10

Embodiment 11

Embodiment 12

Embodiment 13

General principle and principal character and the advantages of the present invention of the present invention have been shown and described above.The skill of the industry The simply explanation it should be appreciated that the present invention is not restricted to the described embodiments, described in above-described embodiment and specification for the art personnel The principle of the present invention, without departing from the spirit and scope of the present invention, the present invention also has various changes and modifications, these Changes and improvements both fall within scope of the claimed invention.Claimed scope by appending claims and Its equivalent thereof.

Claims

1. a kind of rapid heat dissipation and the controlled LED of rising angle, include support base (300), in described support base (300) Upper end is respectively provided on two sides with connecting rod (3001), is provided with and can relatively connecting rod (3001) swing between described connecting rod (3001) Thus adjusting the LED lamp device (800) of rising angle, described connecting rod (3001) being provided with LED lamp device (800) can be made solid Fixed regulating bolt (3002), described LED lamp device (800) includes radiator (100), in described radiator (100) upper end Be provided with mounting groove (101) it is characterised in that：It is provided with pcb board (102) in described mounting groove (101), in described pcb board (102) It is provided with LED lamp bead (103), described radiator (100) includes radiating cylinder body (1), sets on described radiating cylinder body (1) outer wall There are some radiating fins (11), be provided with the radiator body that can rotate with respect to radiating cylinder body (1) in described radiating cylinder body (1) (2), it is provided with cavity (21) in described radiator body (2), have radiating fin in the inner wall even distribution of described radiator body (2) (11) multiple radiating thin slices (3) that can crispatura on radiator body (2), are provided with described radiator body (2) outer wall, Described radiating cylinder body (1) is provided with multiple gathering sills (4), and described radiating thin slice (3) is arranged in described gathering sill (4), in institute State radiating cylinder body (1) bottom and be provided with connecting portion (9), louvre (8) is provided with described connecting portion (9), in described connecting portion (9) It is provided with exhaust fan device (10).

2. a kind of rapid heat dissipation according to claim 1 and the controlled LED of rising angle are it is characterised in that described exhaust fan Device (10) includes ventilative mounting seat (1001), is provided with fan (1002) in described ventilative mounting seat (1001).

3. a kind of rapid heat dissipation according to claim 1 and the controlled LED of rising angle are it is characterised in that in described radiating Cylinder (1) upper end inwall is provided with connection concave station (5), is provided with connection boss (6), described company in described radiator body (2) upper end Connect boss (6) to be movably arranged in connection concave station (5), described mounting groove (101) is arranged in connection boss (6).

4. a kind of rapid heat dissipation according to claim 1 and the controlled LED of rising angle are it is characterised in that in described radiating Device main body (2) end is provided with can order about the knob (7) that radiator body (2) rotates.

5. a kind of rapid heat dissipation according to claim 1 and the controlled LED of rising angle are it is characterised in that in described radiating Louvre (8) inside and outside radiating cylinder body (1) is communicated with cylinder (1) outer wall.

6. a kind of rapid heat dissipation according to claim 1 and the controlled LED of rising angle are it is characterised in that described guiding Groove (4) runs through the upper end of radiating cylinder body (1).

7. a kind of rapid heat dissipation according to claim 1 and controlled LED of rising angle is it is characterised in that described radiating is thin Piece (3) is integrally formed with radiator body (2).

8. a kind of rapid heat dissipation according to claim 2 and the controlled LED of rising angle are it is characterised in that in described connection It is arranged with bearing on boss (6) outer wall.