CN109855067A - A kind of turbine radiator of light and preparation method thereof - Google Patents

Abstract

The present invention discloses a kind of turbine radiator and preparation method thereof of light, including fixed cylinder, the fixed cylinder is hollow structure, fixed cylinder is equipped with the main rectangular fin of axial array distribution, main rectangular fin top is equipped with connecting pin, connecting pin is equipped with branch fin, shoulder is partially equipped on branch fin, shoulder is equipped with the first cooling fin, the second cooling fin is arranged in the middle part of branch fin, branch fin lower part is arranged with third cooling fin, and the first turbulent area is equipped between the first cooling fin and the second cooling fin, and the second turbulent area is equipped between the second cooling fin and third cooling fin.The present invention increases heat dissipation area than ordinary straight line style, the even area of more times of linear type blades, multiple groups sector cooling fin, arrangement of reporting to the leadship after accomplishing a task form the rapid convective mode or heat loss through radiation of heat-dissipating space, turbulent flow between multi-region, raw material is saved, Material Cost and transportation cost, moulding and the fusion of turbulent flow section phase perfect matching are reduced, enhance product aesthetic feeling, the radiating rate of product can be accelerated.

Description

A kind of turbine radiator of light and preparation method thereof

Technical field

The present invention relates to a kind of lamps and lanterns field of radiating, the turbine radiator of specifically a kind of light and its production side Method.

Background technique

Spotlight is the light being polymerized to using optically focused camera lens or reflecting mirror etc..The point light type of reflectoscope is fairly simple, illumination is strong, Spotlignt, convenient for being a kind of lamp with the most use in film studio and studio towards the lamp of the specific position cover in scene. The light that LED spotlight uses LED to be polymerized to as light source, spotlight using optically focused camera lens or reflecting mirror etc..The point light type of reflectoscope It is fairly simple, illumination is strong, Spotlignt, convenient for being in film studio and studio towards the lamp of the specific position cover in scene The difference of a kind of lamp with the most use, led spotlight and spotlight is exactly, LED spotlight using LED lamp bead, and Unconventional light bulb, the service life of LED lamp bead than conventional bulb long service life, function be it is the same, be all play it is poly- The effect of light.Spotlight is because illumination is strong, and the heat that when use generates is huge, and temperature can be increased slowly, spotlight heat-sinking capability Determine service life and the first use time of spotlight, what some lamps and lanterns band temperature were protected, temperature is excessively high to be automatically turned off, in this way It will affect people's use, in response to this, it is proposed that a kind of turbine radiator of light and preparation method thereof.

Summary of the invention

The purpose of the present invention is to provide turbine radiators of a kind of light and preparation method thereof, than generic linear Type increases the area of heat dissipation area or even more times of linear type blades, multiple groups sector cooling fin, and arrangement of reporting to the leadship after accomplishing a task forms heat-dissipating space Rapid convective mode or heat loss through radiation, turbulent flow between multi-region save raw material, reduce Material Cost and transportation cost, moulding and The fusion of turbulent flow section phase perfect matching, enhances product aesthetic feeling, can accelerate the radiating rate of product.

The purpose of the present invention can be achieved through the following technical solutions:

A kind of turbine radiator of light, including fixed cylinder, the fixed cylinder are hollow structure, fixed cylinder It is equipped with the main rectangular fin of axial array distribution, main rectangular fin top is equipped with connecting pin, and connecting pin is equipped with branch fin, branch fin top Divide and be equipped with shoulder, shoulder is equipped with the first cooling fin, is arranged with the second cooling fin in the middle part of branch fin, branch fin lower part is arranged with Third cooling fin, is equipped with the first turbulent area between the first cooling fin and the second cooling fin, the second cooling fin and third cooling fin it Between be equipped with the second turbulent area.

Further, the main rectangular fin and branch fin corresponding relationship coefficient are main number of fins/branch number of fins≤1, when When main rectangular fin quantity/branch number of fins < 1, branch fin is in array distribution.

Further, spacing is 2~3mm between the branch fin.

Further, the main rectangular fin is at least provided with ten.

Further, the main rectangular fin and branch fin are aluminum profile corrugated plating.

Further, the main rectangular fin and branch fin thickness are 0.5~10mm.

Further, the main rectangular fin and branch fin are reported to the leadship after accomplishing a task sequence, and arrangement mode is reverse each other, the first cooling fin, second Cooling fin and third fin array mode are reverse each other.

Further, the main rectangular fin and branch fin are reported to the leadship after accomplishing a task sequence, arrangement mode each other forward, the first cooling fin, second Cooling fin and third fin array mode are each other forward.

A kind of turbine radiator production method of light, comprising the following steps:

Step 1: aluminium alloy extrusions is melted in melting furnace as molten aluminium alloy, is stirred in the process, aluminium alloy is melted Liquid pours into the mold cavity of preheating, and the mold cavity of preheating applies antitack agent, carries out die casting sizing, cooling 1~2h using die casting machine Afterwards, the blank that reverse mould goes out die casting carries out air-cooled.

Step 2: blank is successively carried out to deburring, flatness shaping, ball blast and blasting treatment.

Step 3: treated blank carries out surface anodization processing, by bloom treated cooling fin in anode It is aoxidized in oxidation trough.

Step 4: the cooling fin that step 3 is obtained, which is put into solidify liquid, to be solidified, and 300~320 DEG C of solidification temperature, when Between 10~20min.

Step 5: being washed using pure water, is reused polishing fluid and is carried out chemical polishing, polishing fluid is fluorine zirconic acid, bromic acid ammonium, receives Rice silicon dioxide gel, potassium methyl silicate, 2-mercaptothiazoline, nano-cerium oxide and water mixed liquid, the temperature of chemical polishing exist Between 200~250 DEG C, the frequency ultrasonic wave that polishing auxiliary is 50~80KHz shakes auxiliary.

Step 6: the cooling fin that polishing obtains is made wash with distilled water, to obtain turbine radiator.

A kind of lamps and lanterns, the turbine radiator including a kind of light described in claim 1~8 any one.

Beneficial effects of the present invention:

1, the present invention increases the area of heat dissipation area or even more times of linear type blades than ordinary straight line style；

2, multiple groups sector cooling fin of the present invention, arrangement of reporting to the leadship after accomplishing a task form the rapid convective mode or heat loss through radiation of heat-dissipating space；

3, turbulent flow between multi-region of the present invention, saves raw material, reduces Material Cost and transportation cost, moulding and turbulent flow section phase Perfect matching fusion, enhances product aesthetic feeling, can accelerate the radiating rate of product.

Detailed description of the invention

The present invention will be further described below with reference to the drawings.

Fig. 1 is the turbine radiator structure schematic diagram of light of the present invention；

Fig. 2 is the turbine radiator structure schematic diagram of light of the present invention；

Fig. 3 is the turbine radiator partial structure diagram of light of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts all other Embodiment shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that, term " aperture ", "upper", "lower", " thickness ", "top", " in ", Indicating positions or the positional relationship such as " length ", "inner", " surrounding ", are merely for convenience of description of the present invention and simplification of the description, without It is that the component of indication or suggestion meaning or element must have a particular orientation, is constructed and operated in a specific orientation, therefore not It can be interpreted as limitation of the present invention.

A kind of turbine radiator of light, including fixed cylinder 1, as shown in Figure 1, Figure 2, Figure 3 shows, fixed cylinder 1 is Hollow structure, fixed cylinder 1 are equipped with the main rectangular fin 2 of axial array distribution, and 2 top of main rectangular fin is equipped with connecting pin 21, connecting pin 21 are equipped with branch fin 22, and main rectangular fin 2 and 22 corresponding relationship coefficient of branch fin are main number of fins/branch number of fins≤1, work as master When number of fins/branch number of fins < 1, branch fin 22 is in array distribution, and spacing is 2~3mm, branch fin 22 between branch fin 22 Upper part is equipped with shoulder 23, and shoulder 23 is equipped with the first cooling fin 24, is arranged with the second cooling fin 25 in the middle part of branch fin 22, props up 22 lower part of fin is arranged with third cooling fin 26, and the first turbulent area 3 is equipped between the first cooling fin 24 and the second cooling fin 25, the The second turbulent area 4 is equipped between two cooling fins 25 and third cooling fin 26, main rectangular fin 2 and branch fin 22 are aluminum profile ripple Plate, branch fin 22 such as dendritic shape or zigzag fashion, main rectangular fin 2 >=ten, main rectangular fin 2 and branch fin 22 with a thickness of 0.5~ 10mm, main rectangular fin 2 and branch fin 22 are reported to the leadship after accomplishing a task sequence, arrangement mode can each other inversely can each other forward, the first cooling fin 24, second Cooling fin 25 and 26 arrangement mode of third cooling fin can each other inversely can each other forward.

A kind of turbine radiator production method of light, comprising the following steps:

Step 1: aluminium alloy extrusions is melted in melting furnace as molten aluminium alloy, is stirred in the process, aluminium alloy is melted Liquid pours into the mold cavity of preheating, and the mold cavity of preheating applies antitack agent, carries out die casting sizing, cooling 1~2h using die casting machine Afterwards, the blank that reverse mould goes out die casting carries out air-cooled.

Step 2: blank is successively carried out to deburring, flatness shaping, ball blast and blasting treatment.

Step 3: treated blank carries out surface anodization processing, by bloom treated cooling fin in anode It is aoxidized in oxidation trough；

Step 4: the cooling fin that step 3 is obtained, which is put into solidify liquid, to be solidified, and 300~320 DEG C of solidification temperature, when Between 10~20min.

Step 5: being washed using pure water, is reused polishing fluid and is carried out chemical polishing, polishing fluid is fluorine zirconic acid, bromic acid ammonium, receives Rice silicon dioxide gel, potassium methyl silicate, 2-mercaptothiazoline, nano-cerium oxide and water mixed liquid, the temperature of chemical polishing exist Between 200~250 DEG C, the frequency ultrasonic wave that polishing auxiliary is 50~80KHz shakes auxiliary.

Step 6: the cooling fin that polishing obtains is made wash with distilled water, to obtain turbine radiator.

Embodiment 1

A kind of turbine radiator production method of light, comprising the following steps:

Step 1: aluminium alloy extrusions is melted in melting furnace as molten aluminium alloy, is stirred in the process, aluminium alloy is melted Liquid pours into the mold cavity of preheating, and the mold cavity of preheating applies antitack agent, carries out die casting sizing using die casting machine, after cooling down 1h, The blank that reverse mould goes out die casting carries out air-cooled.

Step 2: blank is successively carried out to deburring, flatness shaping, ball blast and blasting treatment.

Step 3: treated blank carries out surface anodization processing, by bloom treated cooling fin in anode It is aoxidized in oxidation trough；

Step 4: the cooling fin that step 3 is obtained, which is put into solidify liquid, to be solidified, and 300 DEG C of solidification temperature, the time 10min。

Step 5: being washed using pure water, is reused polishing fluid and is carried out chemical polishing, polishing fluid is fluorine zirconic acid, bromic acid ammonium, receives Rice silicon dioxide gel, potassium methyl silicate, 2-mercaptothiazoline, nano-cerium oxide and water mixed liquid, the temperature of chemical polishing exist Between 200 DEG C, the frequency ultrasonic wave that polishing auxiliary is 50KHz shakes auxiliary.

Step 6: the cooling fin that polishing obtains is made wash with distilled water, to obtain turbine radiator.

After spotlight is opened 1h, using thermometer metering temperature, temperature is 80 DEG C, uses 1h using common cooling fin Afterwards, using thermometer metering temperature, temperature is 49 DEG C, and the turbine radiator that this technique produces is mounted on lamps and lanterns, 1h is used Afterwards, using thermometer metering temperature, temperature is 34 DEG C.

Embodiment 2

A kind of turbine radiator production method of light, comprising the following steps:

Step 1: aluminium alloy extrusions is melted in melting furnace as molten aluminium alloy, is stirred in the process, aluminium alloy is melted Liquid pours into the mold cavity of preheating, and the mold cavity of preheating applies antitack agent, carries out die casting sizing, cooling 1.5h using die casting machine Afterwards, the blank that reverse mould goes out die casting carries out air-cooled.

Step 2: blank is successively carried out to deburring, flatness shaping, ball blast and blasting treatment.

Step 3: treated blank carries out surface anodization processing, by bloom treated cooling fin in anode It is aoxidized in oxidation trough；

Step 4: the cooling fin that step 3 is obtained, which is put into solidify liquid, to be solidified, and 310 DEG C of solidification temperature, the time 15min。

Step 5: being washed using pure water, is reused polishing fluid and is carried out chemical polishing, polishing fluid is fluorine zirconic acid, bromic acid ammonium, receives Rice silicon dioxide gel, potassium methyl silicate, 2-mercaptothiazoline, nano-cerium oxide and water mixed liquid, the temperature of chemical polishing exist Between 230 DEG C, the frequency ultrasonic wave that polishing auxiliary is 70KHz shakes auxiliary.

Step 6: the cooling fin that polishing obtains is made wash with distilled water, to obtain turbine radiator.

After spotlight is opened 1h, using thermometer metering temperature, temperature is 81 DEG C, uses 1h using common cooling fin Afterwards, using thermometer metering temperature, temperature is 48 DEG C, and the turbine radiator that this technique produces is mounted on lamps and lanterns, 1h is used Afterwards, using thermometer metering temperature, temperature is 33 DEG C.

Embodiment 3

A kind of turbine radiator production method of light, comprising the following steps:

Step 1: aluminium alloy extrusions is melted in melting furnace as molten aluminium alloy, is stirred in the process, aluminium alloy is melted Liquid pours into the mold cavity of preheating, and the mold cavity of preheating applies antitack agent, carries out die casting sizing using die casting machine, after cooling down 2h, The blank that reverse mould goes out die casting carries out air-cooled.

Step 2: blank is successively carried out to deburring, flatness shaping, ball blast and blasting treatment.

Step 3: treated blank carries out surface anodization processing, by bloom treated cooling fin in anode It is aoxidized in oxidation trough；

Step 4: the cooling fin that step 3 is obtained, which is put into solidify liquid, to be solidified, and 320 DEG C of solidification temperature, the time 20min。

Step 5: being washed using pure water, is reused polishing fluid and is carried out chemical polishing, polishing fluid is fluorine zirconic acid, bromic acid ammonium, receives Rice silicon dioxide gel, potassium methyl silicate, 2-mercaptothiazoline, nano-cerium oxide and water mixed liquid, the temperature of chemical polishing exist Between 250 DEG C, the frequency ultrasonic wave that polishing auxiliary is 80KHz shakes auxiliary.

Step 6: the cooling fin that polishing obtains is made wash with distilled water, to obtain turbine radiator.

After spotlight is opened 1h, using thermometer metering temperature, temperature is 82 DEG C, uses 1h using common cooling fin Afterwards, using thermometer metering temperature, temperature is 53 DEG C, and the turbine radiator that this technique produces is mounted on lamps and lanterns, 1h is used Afterwards, using thermometer metering temperature, temperature is 37 DEG C.

In the description of this specification, the description of reference term " one embodiment ", " example ", " specific example " etc. means Particular features, structures, materials, or characteristics described in conjunction with this embodiment or example are contained at least one implementation of the invention In example or example.In the present specification, schematic expression of the above terms may not refer to the same embodiment or example. Moreover, particular features, structures, materials, or characteristics described can be in any one or more of the embodiments or examples to close Suitable mode combines.

The basic principles, main features and advantages of the present invention have been shown and described above.The technology of the industry Personnel are it should be appreciated that the present invention is not limited to the above embodiments, and the above embodiments and description only describe this The principle of invention, without departing from the spirit and scope of the present invention, various changes and improvements may be made to the invention, these changes Change and improvement all fall within the protetion scope of the claimed invention.

Claims (10)

1. a kind of turbine radiator of light, including fixed cylinder (1), which is characterized in that during the fixed cylinder (1) is Hollow structure, fixed cylinder (1) are equipped with the main rectangular fin (2) of axial array distribution, and main rectangular fin (2) top is equipped with connecting pin (21), Connecting pin (21) is equipped with branch fin (22), is partially equipped with shoulder (23) on branch fin (22), and shoulder (23) is equipped with first Cooling fin (24), branch fin (22) middle part are arranged with the second cooling fin (25), and branch fin (22) lower part is arranged with third cooling fin (26), the first turbulent area (3), the second cooling fin (25) and third are equipped between the first cooling fin (24) and the second cooling fin (25) The second turbulent area (4) are equipped between cooling fin (26).

2. a kind of turbine radiator of light according to claim 1, which is characterized in that the main rectangular fin (2) with Branch fin (22) corresponding relationship coefficient is main number of fins/branch number of fins≤1, as main rectangular fin quantity/branch number of fins < 1 When, branch fin (22) is in array distribution.

3. a kind of turbine radiator of light according to claim 2, which is characterized in that the branch fin (22) it Between spacing be 2~3mm.

4. a kind of turbine radiator of light according to claim 1, which is characterized in that the main rectangular fin (2) is extremely It is equipped with ten less.

5. a kind of turbine radiator of light according to claim 1, which is characterized in that the main rectangular fin (2) with Branch fin (22) is aluminum profile corrugated plating.

6. a kind of turbine radiator of light according to claim 1, which is characterized in that the main rectangular fin (2) with Branch fin (22) is with a thickness of 0.5~10mm.

7. a kind of turbine radiator of light according to claim 1, which is characterized in that the main rectangular fin (2) with Branch fin (22) is reported to the leadship after accomplishing a task sequence, and arrangement mode is reverse each other, the first cooling fin (24), the second cooling fin (25) and third cooling fin (26) arrangement mode is reverse each other.

8. a kind of turbine radiator of light according to claim 1, which is characterized in that the main rectangular fin (2) with Branch fin (22) is reported to the leadship after accomplishing a task sequence, arrangement mode each other forward, the first cooling fin (24), the second cooling fin (25) and third cooling fin (26) arrangement mode is each other forward.

9. a kind of turbine radiator production method of light, which comprises the following steps:

Step 1: aluminium alloy extrusions is melted in melting furnace as molten aluminium alloy, is stirred in the process, molten aluminium alloy is fallen Enter the mold cavity of preheating, the mold cavity of preheating applies antitack agent, carries out die casting sizing using die casting machine, after cooling down 1~2h, The blank that mould goes out die casting carries out air-cooled；

Step 2: blank is successively carried out to deburring, flatness shaping, ball blast and blasting treatment；

Step 3: treated blank carries out surface anodization processing, by bloom treated cooling fin in anodic oxidation It is aoxidized in slot；

Step 4: the cooling fin that step 3 is obtained, which is put into solidify liquid, to be solidified, and 300~320 DEG C of solidification temperature, the time 10 ~20min；

Step 5: being washed using pure water, is reused polishing fluid and is carried out chemical polishing, polishing fluid is fluorine zirconic acid, bromic acid ammonium, nanometer two Silica sol, potassium methyl silicate, 2-mercaptothiazoline, nano-cerium oxide and water mixed liquid, the temperature of chemical polishing 200~ Between 250 DEG C, the frequency ultrasonic wave that polishing auxiliary is 50~80KHz shakes auxiliary；

Step 6: the cooling fin that polishing obtains is made wash with distilled water, to obtain turbine radiator.

10. a kind of lamps and lanterns, which is characterized in that the turbine including a kind of light described in claim 1~8 any one dissipates Hot body.