CN209544816U - A kind of air-cooled hundred-watt level semiconductor Optical Maser System - Google Patents

Abstract

The utility model discloses a kind of air-cooled hundred-watt level semiconductor Optical Maser System, it includes cabinet, laser and radiator, the laser and the radiator are contained in the cabinet, the laser is set on the radiator, the radiator includes supporting plate, several semiconductor chilling plates, radiator, the several fans and wind-guiding shell of horizontal interval arrangement, the wind-guiding shell includes top flat and bends downward two lateral plates of extension from the top flat left and right ends, the top flat is covered in the top of the radiator and fan, two lateral plate is covered in the side of the fan Yu the radiator, air duct is concentrated by wind-guiding shell, form larger air-flow, the heat on cooling fin is taken away rapidly, improve the radiating efficiency of radiator.

Description

A kind of air-cooled hundred-watt level semiconductor Optical Maser System

Technical field

The utility model relates to a kind of semiconductor laser system more particularly to a kind of air-cooled hundred-watt level semiconductor lasers System.

Background technique

With the promotion of science and technology, more and more highly integrated high-accuracy electronic components are used by exploitation, such as laser Device, it is very high to radiating condition requirement when such component works, but the semiconductor laser system of existing wind-cooling heat dissipating Radiator is cooled down by semiconductor chilling plate (TEC) noise spectra of semiconductor lasers, the cooling of this cooling means The temperature difference is larger, and temperature change is larger, non-constant, is easy to influence the service life of semiconductor laser when temperature change is larger.

Utility model content

Swash the purpose of this utility model is to provide a kind of with the air-cooled hundred-watt level semiconductor for improving radiating efficiency Light device system.

To realize foregoing purpose, the utility model adopts the following technical solution: a kind of air-cooled hundred-watt level semiconductor laser Device system comprising cabinet, laser and radiator, the cabinet include roof, the bottom wall opposite with the roof, connection The several side walls and the internal cavity between the roof, the bottom wall and the side wall of the roof and the bottom wall, The laser and the radiator are contained in the internal cavity, and the laser is set on the radiator, In a side wall be equipped with through the side wall several windows, the radiator include supporting plate, several semiconductor chilling plates, Radiator, horizontal interval arrangement several fans and wind-guiding shell, the laser is fixed on the splint upper surface, described half Conductor cooling piece is layered between the supporting plate and the radiator, and the fan is located in front of the radiator, and with institute Window alignment is stated, the wind-guiding shell includes top flat and bends downward two lateral plates of extension from the top flat left and right ends, described Top flat is covered in the top of the radiator and fan, and two lateral plate is covered in the side of the fan Yu the radiator.

Further to improve, the lateral plate root edge is equipped with the fixinig plate for bending extension outward, and the fixinig plate can be borrowed Screw is helped to lock on the bottom wall.

Further to improve, the fan is opened with the radiator time interval.

Further to improve, the fan and the wind-guiding shell are also supported in downwards on the bottom wall.

Further to improve, the radiator is spaced apart up and down with the bottom wall.

It is further to improve, the radiator include include upper plate, the two-phase that is extended downwardly from the upper plate left and right ends It is extended downwardly to side plate and from the upper plate and the spaced several cooling fins in left and right, the fin array is in two sides Between plate.

Further to improve, the top flat is located in front of supporting plate, and the lateral plate extends rearward beyond the top flat.

Further to improve, the laser is located at the central location of radiator with the semiconductor chilling plate.

Further to improve, the side wall is equipped with heat release hole.

The radiator of the air-cooled hundred-watt level semiconductor Optical Maser System of the utility model includes supporting plate, several semiconductor systems Cold, radiator, horizontal interval arrangement several fans and wind-guiding shell, the laser is fixed on the splint upper surface, The semiconductor chilling plate is layered between the supporting plate and the radiator, and the fan is located in front of the radiator, and And be aligned with the window, the wind-guiding shell includes top flat and bends downward the two sides of extension from the top flat left and right ends Piece, the top flat are covered in the top of the radiator and fan, and two lateral plate is covered in the fan and the radiator Side, be designed in this way, by wind-guiding shell concentrate air duct, form larger air-flow, prevent air-flow from running helter-skelter, air-flow is on a heat sink Quickly flowing, can take away rapidly the heat on cooling fin, improve the radiating efficiency of radiator, and then improve dissipating for laser The thermal efficiency, the final radiating efficiency for improving semiconductor laser system entirety, it is ensured that the normal operation of semiconductor laser system extends Service life.

Detailed description of the invention

Fig. 1 is the stereoscopic schematic diagram of the air-cooled hundred-watt level semiconductor Optical Maser System of the utility model.

Fig. 2 is the inside schematic diagram of the air-cooled hundred-watt level semiconductor Optical Maser System of the utility model.

Fig. 3 is the stereoscopic schematic diagram of the air-cooled hundred-watt level semiconductor Optical Maser System of the utility model, does not show cabinet.

Fig. 4 is the view of another angle of Fig. 3.

Fig. 5 is the stereogram exploded view of Fig. 3.

Specific embodiment

It please refers to shown in Fig. 1 to Fig. 5, the air-cooled hundred-watt level semiconductor Optical Maser System 100 of the utility model includes cabinet 10, laser 20 and radiator 30, laser 20 and radiator 30 are contained in jointly in cabinet 10.

Cabinet 10 is set as hexahedral square structure, including roof 11, the bottom wall 12 opposite with roof 11, connect roof 11 and bottom wall 12 several side walls 13 and the internal cavity 14 that is formed between roof 11, bottom wall 12 and each side wall 13, laser 20 are contained in the internal cavity 15 with radiator 30, and wherein one side wall 13 is equipped with several windows 15 through side wall 13, window Mouth 15 is aligned with radiator 30, enters internal cavity 14 convenient for the cold air outside cabinet 10, and the heat in internal cavity 14 is empty Cabinet 10 is discharged in gas.Each side wall 13 is additionally provided with heat release hole 16, and cabinet 10 is discharged from heat release hole 16 convenient for the heat in cabinet 10, mentions Heat dissipation effect inside high cabinet 10.

Laser 20 is fixedly installed on 30 top of radiator.

Radiator 30 includes horizontal supporting plate 31, several semiconductor chilling plates 32, radiator 33, horizontal interval arrangement Several fans 34 and wind-guiding shell 35.Laser 20 is fixed on 31 upper surface of supporting plate, and semiconductor chilling plate 32 is layered in supporting plate 31 Between radiator 33, laser 20 is located at the central location of radiator 33 with semiconductor chilling plate 32, is conducive to semiconductor system The heat of laser 20 is absorbed with radiator 33 for cold 32, improve the radiating efficiency of laser 20；30 structure of radiator is simple, It is compact.

The setting of radiator 33 is in hexahedral shape, is located at the top of bottom wall 12, and be spaced from each other, including upper plate 331, from It two opposite sides plate 332 that 331 left and right ends of upper plate extend downwardly and is extended downwardly from upper plate 331 and the spaced number in left and right A cooling fin 333.Semiconductor chilling plate 32 is set on upper plate 331, and side plate 332 is parallel to each other with each cooling fin 333, and has There is sustained height.Fan 34 is located at 33 front of radiator, and is spaced apart.Wind-guiding shell 35 is supported in downwards jointly with fan 34 On bottom wall 12, wind-guiding shell 35 is in U-shape, including top flat 351 and a pair of of lateral plate 352, before top flat 351 is located at semiconductor chilling plate 32 Side, and cover in 34 top of 331 leading edge of upper plate and fan.Top flat 351 connects this to lateral plate 352, top flat 351 and this to lateral plate 352 leading edge alignment, lateral plate 352 also extend rearward beyond top flat 351, and lateral plate 352 is covered in outside fan 34 and radiator 33 On side.352 root edge of lateral plate is equipped with the fixinig plate 353 for bending extension outward, is lock on 10 bottom wall 12 of cabinet by screw, It is loosened to limit radiator 30.Radiator 33 is locked with lateral plate 352, and radiator 33 is promoted to be suspended on bottom wall 12 Side.

When radiator 30 works, fan 34 absorbs the air formation high wind outside cabinet 10 and enters in the hot device 33 of fan, with Cooling fin 333 carries out heat exchange, reduces the temperature of cooling fin 333, and then reduce the temperature of semiconductor chilling plate 32 and laser 20 Degree is covered outside fan 34 and radiator 33 by the way that wind-guiding shell 35 is arranged, and convenient for concentrating air duct, is formed larger air-flow, is prevented Only air-flow is run helter-skelter, and air-flow quickly flows on cooling fin 333, can be taken away the heat on cooling fin 333 rapidly, be improved heat dissipation The radiating efficiency of device 33, and then the radiating efficiency of laser 20 is improved, suitable for small area, the heat dissipation of powerful laser 20 Demand, it is final to improve the whole radiating efficiency of semiconductor laser system 100, it is ensured that the normal operation of semiconductor laser system 100, Prolong the service life.

Although for illustrative purposes, preferred embodiments of the present invention are had been disclosed, but the common skill of this field Art personnel will realize the situation of the scope of the utility model and spirit disclosed in not departing from by appended claims Under, various improvements, additions and substitutions are possible.

Claims (9)

1. a kind of air-cooled hundred-watt level semiconductor Optical Maser System comprising cabinet, laser and radiator, the cabinet packet It includes several side walls of roof, the bottom wall opposite with the roof, the connection roof and the bottom wall and is located at the roof, institute The internal cavity between bottom wall and the side wall is stated, the laser and the radiator are contained in the internal cavity, institute It states laser to be set on the radiator, wherein a side wall is equipped with several windows through the side wall, feature Be: the radiator include supporting plate, several semiconductor chilling plates, radiator, horizontal interval arrangement several fans and lead Crust of weathering body, the laser are fixed on the splint upper surface, and the semiconductor chilling plate is layered in the supporting plate and dissipates with described Between hot device, the fan is located in front of the radiator, and is aligned with the window, the wind-guiding shell include top flat and Two lateral plates of extension are bent downward from the top flat left and right ends, the top flat is covered in the top of the radiator and fan, Two lateral plate is covered in the side of the fan Yu the radiator.

2. air-cooled hundred-watt level semiconductor Optical Maser System according to claim 1, it is characterised in that: the lateral plate root edge Equipped with the fixinig plate for bending extension outward, the fixinig plate can be lock on the bottom wall by screw.

3. air-cooled hundred-watt level semiconductor Optical Maser System according to claim 1, it is characterised in that: the fan and institute Radiator time interval is stated to open.

4. air-cooled hundred-watt level semiconductor Optical Maser System according to claim 1, it is characterised in that: the fan and institute Wind-guiding shell is stated also to be supported in downwards on the bottom wall.

5. air-cooled hundred-watt level semiconductor Optical Maser System according to claim 1, it is characterised in that: the radiator with The bottom wall is spaced apart up and down.

6. air-cooled hundred-watt level semiconductor Optical Maser System according to claim 1, it is characterised in that: the radiator packet It includes upper plate, the two opposite sides plate extended downwardly from the upper plate left and right ends and is extended downwardly from the upper plate and between left and right every row Several cooling fins of column, the fin array is between two side plates.

7. air-cooled hundred-watt level semiconductor Optical Maser System according to claim 1, it is characterised in that: the top flat is located at In front of supporting plate, the lateral plate extends rearward beyond the top flat.

8. air-cooled hundred-watt level semiconductor Optical Maser System according to claim 1, it is characterised in that: the laser with The semiconductor chilling plate is located at the central location of radiator.

9. air-cooled hundred-watt level semiconductor Optical Maser System according to claim 1, it is characterised in that: the side wall is equipped with Heat release hole.