CN206817420U - A kind of uniform-temperature radiator - Google Patents

Abstract

This is new, and be related to is a kind of uniform-temperature radiator, including bottom temperature-uniforming plate, the first temperature-uniforming plate, the second temperature-uniforming plate and the first fin, the second fin；Bottom temperature-uniforming plate, the first temperature-uniforming plate, the material of the second temperature-uniforming plate are copper or aluminium, it is internally provided with the fine hollow billet of some equidistant independent operatings of independent parallel, there is nickel plating its outer surface, and bottom temperature-uniforming plate is bent into U-shaped, and the first temperature-uniforming plate, the second temperature-uniforming plate are bent into U-shaped；First fin, the second fin are linked together using several aluminum slice buttons FIN, and the through hole for thering are several mutually to link up, there is nickel plating on surface, first fin bottom integral solder is in bottom temperature-uniforming plate inner surface, the first temperature-uniforming plate inner surface is welded at the top of the first fin simultaneously, the U-shaped both sides of the first temperature-uniforming plate are then welded on the U-shaped inner surface both sides of bottom temperature-uniforming plate；The second fin bottom is welded on the first temperature-uniforming plate outer surface again, is welded on the second temperature-uniforming plate inner surface at the top of the second fin, the U-shaped both sides of the second temperature-uniforming plate are then welded on the U-shaped inner surface both sides of bottom temperature-uniforming plate.

Description

A kind of uniform-temperature radiator

Technical field

This is new, and be related to is a kind of uniform-temperature radiator.

Background technology

During using LED illumination, it is necessary to convert electrical energy into luminous energy as using traditional lighting mode.But In both modes, luminous energy can be fully converted electric energy to without one kind, and the electric energy of a small number of parts can only be turned Change luminous energy into, remaining most of electric energy (30% one 70%) is LED is luminous, is converted into heat energy during illumination.Especially For high-power LED device and illuminator, with the continuous increase of power, the temperature of LED inside chips also can be by Gradually rise, and the performance of LED inside chips and other devices can decline as temperature rises, or even failure.Finally lead LED component is caused not work.Fundamentally, the rising of junction temperature reduces PN junction and lighted compound probability.Show on light source It is exactly that luminosity declines, generates saturated phenomenon.Therefore heating problem is urgent problem to be solved in LED evolutions.

Utility model content

This new offer is a kind of to be improved for disadvantages mentioned above, technique is simple, the low reflective good heat dissipation effect of cost it is new Type LED MR13 light fixtures

To achieve the above object, it is originally new to adopt the following technical scheme that：

A kind of uniform-temperature radiator, including bottom temperature-uniforming plate, the first temperature-uniforming plate, the second temperature-uniforming plate and the first fin, the second fin Piece；Bottom temperature-uniforming plate, the first temperature-uniforming plate, the material of the second temperature-uniforming plate are copper or aluminium, are internally provided with some of independent parallel There is nickel plating the fine hollow billet of equidistant independent operating, its outer surface, and bottom temperature-uniforming plate is bent into U-shaped, the first temperature-uniforming plate, the second samming Plate is bent into U-shaped；First fin, the second fin are linked together using several aluminum slice buttons FIN, and have several mutually to link up Through hole, there is nickel plating on surface, and the first fin bottom integral solder is in bottom temperature-uniforming plate inner surface, while by table in the first temperature-uniforming plate Face is welded at the top of the first fin, and the U-shaped both sides of the first temperature-uniforming plate are then welded on the U-shaped inner surface both sides of bottom temperature-uniforming plate；Again Second fin bottom is welded on the first temperature-uniforming plate outer surface, is welded on the second temperature-uniforming plate inner surface at the top of the second fin, second The U-shaped both sides of temperature-uniforming plate are then welded on the U-shaped inner surface both sides of bottom temperature-uniforming plate.

Further, by that analogy, can be according to power of heat source size, using fin outsourcing temperature-uniforming plate as unit module, adjustment Cumulative quantity.

By that analogy, cumulative quantity can be adjusted according to power of heat source size.This structure, it is to use fin outsourcing temperature-uniforming plate For unit module, the radiating requirements of different capacity are met with cumulative mode, this heat spreader structures is simple, easily manufacture, cost It is low, good heat dissipation effect.

Brief description of the drawings

Fig. 1 is the utility model schematic diagram；

Fig. 2 is the utility model front view；

Fig. 3 is the utility model top view.

Embodiment

The utility model will be further described below in conjunction with the accompanying drawings.

As Figure 1-3, a kind of uniform-temperature radiator, including bottom temperature-uniforming plate 2, the first temperature-uniforming plate 4, the and of the second temperature-uniforming plate 5 First fin 3, the second fin 3.Bottom temperature-uniforming plate 2, the first temperature-uniforming plate 4, the material of the second temperature-uniforming plate 5 are copper or aluminium, inside it There is nickel plating the fine hollow billet of some equidistant independent operatings provided with independent parallel, its outer surface, and bottom temperature-uniforming plate 2 is bent into U Type, the first temperature-uniforming plate 4, the second temperature-uniforming plate 5 are bent into U-shaped.First fin 3, the second fin 3 are using several aluminum slice buttons FIN Link together, and there is nickel plating on the through hole for having several mutually to link up, surface, the bottom integral solder of the first fin 3 is in bottom samming The inner surface of plate 2, while the inner surface of the first temperature-uniforming plate 4 is welded on the top of the first fin 3, the U-shaped both sides of the first temperature-uniforming plate 4 are then welded It is connected on the U-shaped inner surface both sides of bottom temperature-uniforming plate 2.The bottom of the second fin 3 is welded on the outer surface of the first temperature-uniforming plate 4 again, second The top of fin 3 is welded on the inner surface of the second temperature-uniforming plate 5, and the U-shaped both sides of the second temperature-uniforming plate 5 are then welded on the U-shaped of bottom temperature-uniforming plate 2 Inner surface both sides.

The radiator operation logic is：The installation of thermal source 1 is close to the lower surface of bottom temperature-uniforming plate 2, and in-between medium is available to lead Hot silicone grease reduces thermal resistance, and heat energy caused by thermal source 1 exists through the rapid dispersion of bottom temperature-uniforming plate 2 to the first fin 3, the first fin 3 While radiating, due to being to weld between bottom temperature-uniforming plate 2, the first temperature-uniforming plate 4, the second temperature-uniforming plate 5, bottom temperature-uniforming plate 2 is also same When heat energy is transferred to the first temperature-uniforming plate 4, the second temperature-uniforming plate 5, the auxiliary heat dissipation effect played, the first fin 3, the second fin 3 On have through hole, more cold airflows can be allowed by accelerating heat exchange.Such structure has good heat conduction effect, heat-sinking capability By force, in light weight, easily manufacture, cost are low.

Claims (2)

1. a kind of uniform-temperature radiator, it is characterized in that：Including bottom temperature-uniforming plate, the first temperature-uniforming plate, the second temperature-uniforming plate and the first fin, Second fin；Bottom temperature-uniforming plate, the first temperature-uniforming plate, the material of the second temperature-uniforming plate are copper or aluminium, are internally provided with independent parallel There is nickel plating the fine hollow billet of some equidistant independent operatings, its outer surface, and bottom temperature-uniforming plate is bent into U-shaped, the first temperature-uniforming plate, Two temperature-uniforming plates are bent into U-shaped；First fin, the second fin are linked together using several aluminum slice buttons FIN, and have several Mutually there is nickel plating on coherent through hole, surface, and the first fin bottom integral solder is in bottom temperature-uniforming plate inner surface, while by the first samming Plate inner surface is welded at the top of the first fin, and the U-shaped both sides of the first temperature-uniforming plate are then welded on the U-shaped inner surface two of bottom temperature-uniforming plate Side；The second fin bottom is welded on the first temperature-uniforming plate outer surface again, the second temperature-uniforming plate inner surface is welded at the top of the second fin, The U-shaped both sides of second temperature-uniforming plate are then welded on the U-shaped inner surface both sides of bottom temperature-uniforming plate.

2. a kind of uniform-temperature radiator according to claim 1, it is characterized in that：By that analogy, can according to power of heat source size, Using fin outsourcing temperature-uniforming plate as unit module, cumulative quantity is adjusted.