CN106322334A

CN106322334A - Rotary high-power lamp

Info

Publication number: CN106322334A
Application number: CN201610743352.5A
Authority: CN
Inventors: 吴素贞
Original assignee: Individual
Current assignee: Individual
Priority date: 2015-08-28
Filing date: 2016-08-28
Publication date: 2017-01-11
Also published as: CN106247221A; CN106369452A; CN106382574A; CN106287574A; CN106382480A; CN106369296A; CN106287575A; CN106369428A; CN106287424A; CN106322141A; CN106352275A; CN106369555A; CN106369564A; CN106369454A; CN106369438A; CN106287272A; CN106322239A; CN106369331A; CN106369548A; CN106224787A

Abstract

The invention discloses a rotary high-power lamp. A rotary shaft is arranged below a mounting rack; after the rotary shaft stretches into a mounting groove, a transmission wheel is mounted; a drive motor is arranged on the upper end face of a support base; after the motor shaft of the drive motor stretches into the mounting groove, a driving wheel is mounted; a transmission belt is arranged between the driving wheel and the transmission wheel in a sleeving manner; an LED lamp device is arranged on the mounting rack; a PCB and an LED bead are arranged in the mounting groove; a lens is arranged at the upper end of a radiator; a connecting part is arranged at the lower end of a radiating cylinder; a plurality of radiating holes penetrating through the connecting part along the axial direction of the radiating cylinder are formed in the connecting part; and an exhaust fan device capable of feeding air for the radiating holes and the inner cavity of the radiator is connected with the connecting part. The invention aims to provide the lamp with excellent radiating effect and long service life.

Description

A kind of rotatable large-power lamp

Technical field

The present invention relates to a kind of rotatable large-power lamp.

Background technology

Existing LED is typically all fixing, it is impossible to change direction of illumination, it is impossible to meet user and make in some occasion With, bring much inconvenience to user.Existing LED typically uses the radiator heat-dissipation of solid shape, in order to strengthen heat radiation Area, typically gather on the outer wall of radiator radiating fin, but in radiation processes, heat-dense is in radiator outer wall, heat radiation Effect is not ideal, thus has had a strong impact on its service life.The volume of the radiator being currently used for LED is relatively large, needs Memory space that will be bigger, increases cost of transportation.

So existing light fixture needs to be further improved.

Summary of the invention

The invention aims to overcome weak point of the prior art, it is provided that a kind of good heat dissipation effect service life Long light fixture.

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

A kind of rotatable large-power lamp of the present invention, includes support base, is provided with, on base, the peace that can rotate supporting Shelving, be provided with mounting groove supporting base lower surface, be provided with rotary shaft below installing rack, rotary shaft is installed after stretching into mounting groove There is drive, be provided with driving motor on base upper surface supporting, drive the motor shaft of motor to be provided with after stretching into mounting groove and drive Driving wheel, is arranged with driving belt between driving wheel and drive, is provided with LED lamp device in installing rack, and LED lamp device includes There is radiator, it is characterised in that: end is provided with mounting groove on a heat sink, is provided with pcb board, at described PCB in described mounting groove Plate is provided with LED lamp bead, is provided with lens in described radiator upper end, is provided with can be fixed on by lens in described radiator upper end of stating Lampshade on radiator, described lens include the revolution of truncated cone, and the diameter of described revolution upper bottom surface is less than going to the bottom The diameter in face, is provided with frustum of a cone short slot, the upper bottom surface of described frustum of a cone short slot and truncated cone in described revolution upper bottom surface The upper bottom surface of revolution be completely superposed, the revolution of the truncated cone below frustum of a cone short slot is provided with segment shape short slot, The described bottom surface of segment shape short slot is completely superposed with the bottom surface of frustum of a cone short slot, at the revolution bottom surface of described truncated cone Being provided with multiple arc gap groove, described LED lamp bead is arranged in arc gap groove, is provided with connecting portion in described radiating cylinder body lower end, Described connecting portion is provided with multiple louvre that can run through connecting portion along radiating cylinder body axis direction, described connecting portion connects It is connected to the exhaust fan device can blown to louvre and radiator internal cavities.

A kind of rotatable large-power lamp as above, it is characterised in that described exhaust fan device includes ventilative peace Dress seat, described ventilative mounting seat is connected to radiating cylinder body lower end by attachment screw, is provided with fan in described ventilative mounting seat.

A kind of rotatable large-power lamp as above, it is characterised in that described radiator includes radiating cylinder body, Described radiating cylinder body outer wall is provided with some radiating fins, and being provided with in described radiating cylinder body can be relative to radiating cylinder body rotation Radiator body, is provided with cavity in described radiator body, and the inner wall even distribution at described radiator body has radiating fin, Described radiator body outer wall is provided with multiple heat radiation thin slice can crispaturaed on radiator body, sets on described radiating cylinder body Multiple gathering sill, described heat radiation thin slice is had to be arranged in described gathering sill.

A kind of rotatable large-power lamp as above, it is characterised in that be provided with even at described radiating cylinder body upper end inwall Connecing concave station, be provided with connection boss in described radiator body upper end, described connection boss is movably arranged in connection concave station, described Mounting groove is arranged on connection boss.

A kind of rotatable large-power lamp as above, it is characterised in that be provided with can drive in described radiator body end Make the knob that radiator body rotates.

A kind of rotatable large-power lamp as above, it is characterised in that be communicated with on described radiating cylinder body outer wall Louvre inside and outside radiating cylinder body.

A kind of rotatable large-power lamp as above, it is characterised in that described gathering sill runs through the upper of radiating cylinder body End.

A kind of rotatable large-power lamp as above, it is characterised in that described heat radiation thin slice and radiator body one Molding.

In sum, relative to prior art, it provides the benefit that the present invention:

Present configuration is simple, and the heat radiation thin slice tensible on radiator body, effective increasing heat radiation area, heat It is delivered to away from expandable type radiator, thus is greatly improved radiating effect.The thin slice that dispels the heat in the present invention can be crispaturaed at radiator Body outer wall, thus reduce volume, it is simple to deposit and transport.

Lens design of the present invention is unique, and light efficiency is good.

Accompanying drawing explanation

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

Fig. 2 is the schematic perspective view of radiator of the present invention；

Fig. 3 is the schematic cross-section of radiator of the present invention.

Detailed description of the invention

Below in conjunction with detailed description of the invention, the invention will be further described:

As Figure 1-3, a kind of rotatable large-power lamp of the present invention, include support base 801, support base 801 are provided with the installing rack 802 that can rotate, and are provided with mounting groove 803 supporting base 801 lower surface, set below installing rack 802 Having rotary shaft 804, rotary shaft 804 is provided with drive 805 after stretching into mounting groove 803, is provided with on base 801 upper surface supporting Drive motor 806, drive the motor shaft of motor 806, after stretching into mounting groove 803, driving wheel 807 is installed, in driving wheel 807 and biography Being arranged with driving belt 808 between driving wheel 805, be provided with LED lamp device 800 in installing rack 802, LED lamp device 800 includes Radiator 100, is provided with mounting groove 101 in radiator 100 upper end, is provided with pcb board 102, described in described mounting groove 101 Pcb board 102 is provided with LED lamp bead 103, is provided with lens in described radiator 100 upper end, sets in described radiator 100 upper end of stating Having the lampshade 900 that can be fixed on by lens on radiator 100, described lens include the revolution 20 of truncated cone, described time The diameter of rotation body 20 upper bottom surface, less than the diameter of bottom surface, is provided with frustum of a cone short slot 30, institute in described revolution 20 upper bottom surface The upper bottom surface stating the upper bottom surface of frustum of a cone short slot 30 and the revolution 20 of truncated cone is completely superposed, below frustum of a cone short slot 30 The revolution 20 of truncated cone be provided with segment shape short slot 40, the bottom surface of described segment shape short slot 40 and frustum of a cone short slot 30 Bottom surface is completely superposed, and is provided with multiple arc gap groove 50, described LED lamp bead on revolution 20 bottom surface of described truncated cone 103 are arranged in arc gap groove 50.

Radiator 100 of the present invention includes radiating cylinder body 1, is provided with some heat radiations on described radiating cylinder body 1 outer wall Fin 11, is provided with the radiator body 2 that can rotate relative to radiating cylinder body 1, described radiator master in described radiating cylinder body 1 Being provided with cavity 21 in body 2, the inner wall even distribution at described radiator body 2 has radiating fin 11, at described radiator body 2 outer wall It is provided with multiple heat radiation thin slice 3 can crispaturaed on radiator body 2, described radiating cylinder body 1 is provided with multiple gathering sill 4, Described heat radiation thin slice 3 is arranged in described gathering sill 4.It is provided with connecting portion 9, at described connecting portion 9 in described radiating cylinder body 1 lower end Be provided with multiple heat radiation 8 that can run through connecting portion 9 along radiating cylinder body 1 axis direction, on described connecting portion 9 connect have can to dissipate Hot hole 8 and the exhaust fan device 400 of cavity 21 air-supply.

Exhaust fan device 400 of the present invention includes ventilative mounting seat 4001, and described ventilative mounting seat 4001 is passed through Attachment screw is connected to radiating cylinder body 1 lower end, is provided with fan 4002 in described ventilative mounting seat.

The height sum of frustum of a cone short slot 30 of the present invention and segment shape short slot 40 is less than the revolution 20 of truncated cone Height.

The present invention is provided with connection concave station 5 at described radiating cylinder body 1 upper end inwall, sets in described radiator body 2 upper end Having 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 is delivered to radiating cylinder body 1 by connecting boss 6, thus strengthens radiating effect.

Heretofore described lampshade 103 includes cover body 1031, is provided with card T-Ring 1032, institute in described cover body 1031 lower end State card T-Ring 1032 to be connected to connect on boss 6 outer ledge bottom surface.

The present invention is provided with in described radiator body 2 end and can order about the knob 7 that radiator body 2 rotates.This The stretching, extension of heat radiation thin slice 3 can be controlled by rotary knob portion 7 in bright and crispatura.

The present invention is communicated with the louvre 8 inside and outside radiating cylinder body 1 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 heat radiation thin slice 3 install time Waiting, only need to be placed sequentially in gathering sill 4 by heat radiation thin slice 3, then rotation heat sink main body 2 makes heat radiation thin slice 3 crispatura storage On radiator body 2, the present invention can arrange limited block in heat radiation thin slice 3 end, prevent heat radiation thin slice 3 from excessively crispaturaing.

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

Heretofore described heat radiation thin slice 3 is one-body molded with radiator body 2.

The present invention is arranged with bearing on described connection boss 6 outer wall.

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

Aluminium sesquioxide 10-45%

Zinc oxide 15-30%

Magnesium powder 5-35%

Graphite 8-30%.

Embodiment 1

Foamed Al-allov of the present invention is the most composed of the following components:

Aluminium sesquioxide 10%

Zinc oxide 30%

Magnesium powder 35%

Graphite 25%.

Embodiment 2

Aluminium sesquioxide 10%

Zinc oxide 25%

Magnesium powder 35%

Graphite 30%.

Embodiment 3

Aluminium sesquioxide 45%

Zinc oxide 15%

Magnesium powder 10%

Graphite 30%.

Embodiment 4

Aluminium sesquioxide 45%

Zinc oxide 25%

Magnesium powder 5%

Graphite 25%.

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

The present invention is coated with thermal dispersant coatings on described radiator outer wall, effectively strengthens the radiating effect of radiator.This Invention thermal dispersant coatings includes 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 includes following components by weight:

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

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

B, by the organic siliconresin in step A, 1-Trifluoromethyl-1,3 butadiene 8 weight portions, titanate catalyst 0.1 weight Amount part and ethyl acetate 10 weight portion mix homogeneously, under the protection of argon, be heated to 100 DEG C of dehydration condensations 1 hour, 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 and react 1 hour, reaction knot Lowering the temperature after bundle, decompression is distilled off solvent, must comprise the organic siliconresin of modified Nano particle.

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

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

S2: equipped with agitator, condensing tube, thermometer there-necked flask in, add 180 weight portion steps A synthesis amino 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, to obtain final product.

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

Multi-walled carbon nano-tubes is mixed by weight the ratio for 1:20 with potassium hydroxide by ball grinder, adds appropriate second Alcohol, ball milling, after 12 hours, is washed with deionized to neutrality, obtains compound, is put into by compound in vacuum drying oven at 100 DEG C It is dried 12 hours, to obtain final product.

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

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

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

Embodiment 2

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

B, by the organic siliconresin in step A, 1-Trifluoromethyl-1,3 butadiene 18 weight portions, titanate catalyst 0.6 Weight portion and ethyl acetate 25 weight portion mix homogeneously, under the protection of argon, be 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 and react 2 hours, reaction Lowering the temperature after end, decompression is distilled off solvent, must comprise the organic siliconresin of modified Nano particle.

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

S2: equipped with agitator, condensing tube, thermometer there-necked flask in, add 220 weight portion steps A synthesis amino 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 Continuing insulation 6 hours, finally under the conditions of 0.01MPa, cooling decompression sloughs isopropanol, to obtain final product.

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

Multi-walled carbon nano-tubes is mixed by weight the ratio for 1:30 with potassium hydroxide by ball grinder, adds appropriate second Alcohol, ball milling, after 24 hours, is washed with deionized to neutrality, obtains compound, is put into by compound in vacuum drying oven at 130 DEG C It is dried 16 hours, to obtain final product.

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

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

Embodiment 3

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

B, by the organic siliconresin in step A, 1-Trifluoromethyl-1,3 butadiene 12 weight portions, titanate catalyst 0.3 Weight portion and ethyl acetate 15 weight portion mix homogeneously, under the protection of argon, be 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 and react 1.5 hours, reaction Lowering the temperature after end, decompression is distilled off solvent, must comprise the organic siliconresin of modified Nano particle.

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

S2: equipped with agitator, condensing tube, thermometer there-necked flask in, add 180-220 weight portion step A synthesis 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, being further continued for insulation 4-6 hour, finally under the conditions of 0.005-0.01MPa, cooling decompression sloughs isopropanol, i.e. ?.

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

Multi-walled carbon nano-tubes is mixed by weight the ratio for 1:25 with potassium hydroxide by ball grinder, adds appropriate second Alcohol, ball milling, after 18 hours, is washed with deionized to neutrality, obtains compound, is put into by compound in vacuum drying oven at 120 DEG C It is dried 14 hours, to obtain final product.

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

By epoxy resin, acrylic resin, comprise the organic siliconresin of modified Nano particle, solvent mixing after, be warming up to 45 DEG C stir, and add the CNT of surface hydroxylation, polyether-containing aminopolysiloxane, Al-Mg alloy powder, aluminium nitride, stirring Uniform mixture, adds in paint grinder mill be ground to 30-50 μm by described mixture, and ultrasonic disperse is uniform, 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 the most 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

The ultimate principle of the present invention and principal character and advantages of the present invention have more than been shown and described.The skill of the industry The art personnel simply explanation it should be appreciated that the present invention is not restricted to the described embodiments, described in above-described embodiment and description 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 defines.

Claims

1. a rotatable large-power lamp, includes support base (801), is provided with can rotate supporting on base (801) Installing rack (802), is provided with mounting groove (803) supporting base (801) lower surface, is provided with rotary shaft in installing rack (802) lower section (804), rotary shaft (804) is provided with drive (805) after stretching into mounting groove (803), sets on base (801) upper surface supporting There is driving motor (806), drive the motor shaft of motor (806), after stretching into mounting groove (803), driving wheel (807) is installed, driving It is arranged with driving belt (808) between driving wheel (807) and drive (805), in installing rack (802), is provided with LED lamp device (800), LED lamp device (800) includes radiator (100), it is characterised in that: it is provided with mounting groove in radiator (100) upper end (101), in described mounting groove (101), it is provided with pcb board (102), described pcb board (102) is provided with LED lamp bead (103), Described radiator (100) upper end is provided with lens, is provided with lens can be fixed on radiator in described radiator (100) upper end of stating (100) lampshade (900) on, described lens include the revolution (20) of truncated cone, described revolution (20) upper bottom surface Diameter, less than the diameter of bottom surface, is provided with frustum of a cone short slot (30) in described revolution (20) upper bottom surface, and the described frustum of a cone lacks The upper bottom surface of groove (30) is completely superposed with the upper bottom surface of the revolution (20) of truncated cone, at the circle of frustum of a cone short slot (30) lower section The revolution (20) of taper type is provided with segment shape short slot (40), the bottom surface of described segment shape short slot (40) and frustum of a cone short slot (30) bottom surface is completely superposed, and is provided with multiple arc gap groove (50) on revolution (20) bottom surface of described truncated cone, Described LED lamp bead (103) is arranged in arc gap groove (50), is provided with connecting portion (9) in described radiating cylinder body (1) lower end, in institute State connecting portion (9) and be provided with multiple louvre (8) that can run through connecting portion (9) along radiating cylinder body (1) axis direction, in described company Connect the upper connection in portion (9) and have the exhaust fan device (400) can blown to louvre (8) and radiating cylinder body (1) internal cavities (21).

The rotatable large-power lamp of one the most according to claim 1, it is characterised in that described exhaust fan device (400) Including ventilative mounting seat (4001), described ventilative mounting seat (4001) is connected to radiating cylinder body (1) lower end by attachment screw, Fan (4002) it is provided with in described ventilative mounting seat.

The rotatable large-power lamp of one the most according to claim 1, it is characterised in that described radiator (100) includes Radiating cylinder body (1), is provided with some radiating fins (11) on described radiating cylinder body (1) outer wall, sets in described radiating cylinder body (1) There is the radiator body (2) that can rotate relative to radiating cylinder body (1), in described radiator body (2), be provided with cavity (21), The inner wall even distribution of described radiator body (2) has radiating fin (11), is provided with multiple energy on described radiator body (2) outer wall Crispatura the heat radiation thin slice (3) on radiator body (2), described radiating cylinder body (1) is provided with multiple gathering sill (4), described Heat radiation thin slice (3) is arranged in described gathering sill (4).

The rotatable large-power lamp of one the most according to claim 3, it is characterised in that in described radiating cylinder body (1) upper end Inwall is provided with connection concave station (5), is provided with connection boss (6) in described radiator body (2) upper end, and described connection boss (6) is lived Dynamic being arranged on connects in concave station (5).

The rotatable large-power lamp of one the most according to claim 3, it is characterised in that hold at described radiator body (2) Portion is provided with and can order about the knob (7) that radiator body (2) rotates.

The rotatable large-power lamp of one the most according to claim 3, it is characterised in that at described radiating cylinder body (1) outer wall On be communicated with the louvre (8) inside and outside radiating cylinder body (1).

The rotatable large-power lamp of one the most according to claim 3, it is characterised in that described gathering sill (4) runs through scattered The upper end of hot cylinder (1).

The rotatable large-power lamp of one the most according to claim 3, it is characterised in that described heat radiation thin slice (3) and heat radiation Device main body (2) is one-body molded.