CN209309951U - Heat radiation structure applied to lamp - Google Patents

Abstract

The utility model discloses a be applied to heat radiation structure of lamps and lanterns, include: a base; more than one light source; the LED lamp also comprises more than one radiator, and the radiators and the light sources are paired and used in a one-to-one correspondence manner; the radiator is arranged on the surface of one side of the base, which is far away from the light source, and the radiator is positioned at the position, corresponding to the light source, of the surface of the side of the base; meanwhile, at least one superconducting heat pipe for heat conduction is arranged between the radiator and the base, and the superconducting heat pipe is abutted to the base and the radiator at the same time. Consequently, every radiator can be independently with the heat that produces rather than the light source that corresponds give off in the external environment, has abandoned the tradition and has adopted the radiating mode that a radiator corresponds a plurality of light sources, thereby has improved widely the utility model discloses a heat radiation structure's heat dispersion.

Description

A kind of radiator structure applied to lamps and lanterns

Technical field

The utility model relates to field of light fittings, especially a kind of radiator structure applied to lamps and lanterns.

Background technique

It is well known that since LED light source has many advantages, such as that long service life, low energy consumption, brightness is high and blueness by people It looks at.Therefore more and more lamps and lanterns use LED light source as illuminating source on the market.

But LED light source can generate a large amount of heat in electrified light emitting, if extraneous ring cannot be distributed heat in time In border, LED light source is easy to happen light decay, can also damage when serious, and therefore, existing lamps and lanterns are generally provided with for LED The radiator of light source heat radiation.

But existing lamps and lanterns, multiple LED light sources are usually set on it, and then only one heat dissipation of mating setting on lamps and lanterns Device, so that the heat that lamps and lanterns generate when LED light source cannot work in time is distributed into external environment, it cannot be well It meets the needs of users.

Utility model content

To solve the above-mentioned problems, the purpose of this utility model is to provide a kind of structure is simple, lamps and lanterns both be can apply to, The radiator structure of perfect heat-dissipating simultaneously.

The utility model be solve its technical problem and the technical solution adopted is that:

A kind of radiator structure applied to lamps and lanterns, comprising:

Pedestal；

More than one light source, the light source are set on a side surface of the pedestal；

It further include more than one radiator, the radiator and the light source match use correspondingly；It is described to dissipate Hot device is set to the pedestal on a side surface of the light source, and the radiator is located at the pedestal side surface and the light At the corresponding position in source；Meanwhile thermally conductive heat superconducting also is used at least provided with one between the radiator and the pedestal Pipe, the super heat-conductive pipe are abutted against with the pedestal and radiator simultaneously.

As an improvement of the above technical solution, a side surface and the super heat-conductive pipe phase of the pedestal away from the light source The groove that can accommodate the super heat-conductive pipe is offered at corresponding position, the super heat-conductive pipe is removably mounted to the groove In.

As a further improvement of the above technical scheme, two heat superconductings are provided between the radiator and the pedestal Pipe, the shape of the super heat-conductive pipe is u-shaped, and the U-shaped opening of two super heat-conductive pipes is towards on the contrary.

In the present invention, the quantity of the light source is six, and six light sources are installed on described with uniformly lining up two column On one side surface of pedestal；The quantity of the radiator be six, six radiators be set to another side surface of the pedestal with At the corresponding position of the light source, meanwhile, it is mutually abutted between two adjacent radiators.

The beneficial effects of the utility model are: since the utility model by being provided with the light source one by one on the base The radiator used is accordingly matched, therefore, each radiator can independently dissipate the heat that corresponding light source generates It is sent in external environment, has abandoned a conventionally employed radiator and corresponded to the radiating mode of multiple light sources, to greatly mention The high heat dissipation performance of the radiator structure of the utility model；Super heat-conductive pipe, therefore light are provided between radiator and pedestal simultaneously When the heat transfer generated when the electrified light emitting of source is to pedestal, pedestal can promptly conduct heat to entire dissipate by super heat-conductive pipe Then hot device is radiated by entire radiator again, further improve the heat dissipation performance of the radiator structure of the utility model.

Detailed description of the invention

Utility model will be further described in detail below with reference to the attached drawings and specific embodiments.

Fig. 1 is the surface structure schematic diagram using the lamps and lanterns of the radiator structure of the utility model；

Fig. 2 is the partial structurtes decomposition diagram using the lamps and lanterns of the radiator structure of the utility model；

Fig. 3 is the part drawing of pedestal in one preferred embodiment of the utility model.

Specific embodiment

Referring to figs. 1 to Fig. 3, a kind of radiator structure applied to lamps and lanterns, comprising: pedestal 10, more than one light source 20, institute Light source 20 is stated to be set on a side surface of the pedestal 10；Herein, the radiator structure of the utility model further include one with On radiator 30, the radiator 30 matches use with the light source 20 correspondingly；The radiator 30 is set to institute Pedestal 10 is stated on a side surface of the light source 20, and the radiator 30 is located at the side surface of pedestal 10 and the light source 20 At corresponding position；Meanwhile thermally conductive superconduction also is used at least provided with one between the radiator 30 and the pedestal 10 Heat pipe 40, the super heat-conductive pipe 40 are abutted against with the pedestal 10 and radiator 30 simultaneously.

Due to the utility model by be provided on pedestal 10 matched correspondingly with the light source 20 use dissipate Hot device 30, therefore, each radiator 30 can independently distribute the heat that corresponding light source 20 generates to external environment In, it has abandoned a conventionally employed radiator and has corresponded to the radiating mode of multiple light sources, so that it is practical new to greatly increase this The heat dissipation performance of the radiator structure of type；Super heat-conductive pipe 40 is provided between radiator 30 and pedestal 10 simultaneously, therefore light source 20 is logical When the heat transfer generated when electroluminescence is to pedestal 10, pedestal 10 can promptly be conducted heat to entirely by super heat-conductive pipe 40 Then radiator 30 is radiated by entire radiator 30 again, further improve dissipating for the radiator structure of the utility model Hot property.

Wherein, in order to increase the contact area between super heat-conductive pipe 40 and pedestal 10, herein, as the utility model One preferred embodiment, the pedestal 10 is at the side surface position corresponding with the super heat-conductive pipe 40 of the light source 20 The groove 11 that can accommodate the super heat-conductive pipe 40 is offered, the super heat-conductive pipe 40 is removably mounted in the groove 11. By using above-mentioned structure, the contact area of super heat-conductive pipe 40 Yu pedestal 10 can be increased, improve heat transfer efficiency, while may be used also So that pedestal 10 is in contact with radiator 30, and then improve the speed that heat is transferred to radiator 30 by pedestal 10.

Herein, in order to enable super heat-conductive pipe 40 can quickly transfer heat to entire radiator 30, as this reality With a novel preferred embodiment, two super heat-conductive pipes 40 are provided between the radiator 30 and the pedestal 10, it is described super The shape of heat conducting pipe 40 is u-shaped, and the U-shaped opening of two super heat-conductive pipes 40 is towards on the contrary.

In order to further increase the utility model radiator structure heat dissipation performance, herein, as the utility model One preferred embodiment, the quantity of the light source 20 are six, and six light sources 20 are uniformly installed on the pedestal 10 with lining up two column A side surface on；The quantity of the radiator 30 is six, and six radiators 30 are set to another side surface of the pedestal 10 At position corresponding with the light source 20, meanwhile, it is mutually abutted between two adjacent radiators 30.By using above-mentioned Structure so that also can be carried out heat transfer between two adjacent radiators 30 so that heat can preferably distribute to It is simple and convenient in external environment.

The foregoing is merely the preferred embodiments of the utility model, as long as realizing the utility model with essentially identical means The technical solution of purpose belongs within the protection scope of the utility model.

Claims (4)

1. a kind of radiator structure applied to lamps and lanterns, comprising:

Pedestal (10)；

More than one light source (20), the light source (20) are set on a side surface of the pedestal (10)；

It is characterized in that,

It further include more than one radiator (30), the radiator (30) is matched correspondingly with the light source (20) to be made With；

The radiator (30) is set to the pedestal (10) on a side surface of the light source (20), and the radiator (30) it is located at the position corresponding with the light source (20) of pedestal (10) side surface；

Meanwhile thermally conductive super heat-conductive pipe also is used at least provided with one between the radiator (30) and the pedestal (10) (40), the super heat-conductive pipe (40) abuts against with the pedestal (10) and radiator (30) simultaneously.

2. a kind of radiator structure applied to lamps and lanterns according to claim 1, it is characterised in that:

The pedestal (10) is opened at the side surface position corresponding with the super heat-conductive pipe (40) of the light source (20) Equipped with the groove (11) that can accommodate the super heat-conductive pipe (40),

The super heat-conductive pipe (40) is removably mounted in the groove (11).

3. a kind of radiator structure applied to lamps and lanterns according to claim 1 or 2, it is characterised in that:

Two super heat-conductive pipes (40) are provided between the radiator (30) and the pedestal (10), the super heat-conductive pipe (40) Shape is u-shaped, and the U-shaped opening of two super heat-conductive pipes (40) is towards on the contrary.

4. a kind of radiator structure applied to lamps and lanterns according to claim 1, it is characterised in that:

The quantity of the light source (20) is six, and six light sources (20) are uniformly installed on the one of the pedestal (10) with lining up two column On side surface；

The quantity of the radiator (30) is six, and six radiators (30) are set to another side surface of the pedestal (10) and institute It states at the corresponding position of light source (20),

Meanwhile it mutually being abutted between two adjacent radiators (30).