CN216896850U - LED light source of high-efficient heat conduction - Google Patents

Abstract

The utility model discloses an LED light source with high-efficiency heat conduction, which relates to the technical field of LED light sources and comprises a super-heat guide tube, at least one group of LED lamp bead pasting plates, a switching ring and a transparent silica gel cover, wherein the super-heat guide tube and the switching ring are both made of metal materials, the LED lamp bead pasting plates are fixedly pasted on the side surface close to one end of the super-heat guide tube, at least one group of LED lamps are fixedly arranged on the LED lamp bead pasting plates, the connecting ring is sleeved at the lower end of the periphery of the LED lamp bead pasting plates, the positive and negative poles of the LED lamps are respectively electrically connected with the super-heat guide tube and the connecting ring, and the silica gel cover is filled on the periphery of the LED lamp bead pasting plates; the utility model solves the technical problems of simpler structure, reduced production cost and improved heat conduction effect.

Description

LED light source of high-efficient heat conduction

Technical Field

The utility model relates to the technical field of LED light sources, in particular to an efficient heat-conducting LED light source.

Background

The light emitting diode is called as LED for short, is a common light emitting device, releases energy through the recombination of electrons and holes to emit light, can efficiently convert electric energy into light energy, and has wide application in modern society, such as illumination, displays, medical devices and the like; the current LED light source is in order to obtain better radiating effect, the comparatively complicacy of its structure universal design, like the high efficiency heat conduction LED light source that china utility model CN213513250U discloses, this scheme is in order to conduct the heat that the LED light source produced to the radiating piece, in order to draw forth the positive and negative two poles of the earth of LED light source simultaneously, a switching circuit board one has been designed, switching circuit board two, the spliced pole, numerous parts such as protective cap, and still need set up the recess on the spliced pole, lead to overall structure very complicacy, directly lead to manufacturing cost's increase, and the heat conduction effect has been reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to realize simple structure, reduce production cost and improve heat conduction effect.

In order to fulfill the aim, the technical scheme adopted by the utility model is as follows:

the utility model provides a LED light source of high-efficient heat conduction, includes super hot pipe, at least a set of LED lamp pearl flitch, adapter ring and transparent silica gel cover, super hot pipe and adapter ring are the metal material, the fixed side of pasting near super hot pipe one end of LED lamp pearl flitch, LED lamp pearl flitch is last to be fixed to be provided with at least a set of LED lamp, the go-between cover is at the outlying lower extreme of LED lamp pearl flitch, the positive negative pole of LED lamp respectively with super hot pipe and go-between electric connection, the silica gel cover is filled out in the periphery of LED lamp pearl flitch.

Further, the interior of the super heat pipe is hollow.

Furthermore, the super heat pipe is made of aluminum alloy or red copper.

Furthermore, four groups of LED lamp bead pasting plates are arranged and fixedly pasted on the side face of the super-heat conduit in a circumferential array mode.

Furthermore, the LED lamp bead pasting plate is fixedly pasted on the side face close to one end of the super-heat conduit through heat conducting glue.

Furthermore, the connecting ring and the LED lamp bead pasting plate are welded through solder paste.

Furthermore, three groups of LED lamps are fixedly arranged on each group of LED lamp bead pasting plates and are arranged in a linear equidistant mode.

Further, still include the radiator, the radiator is fixed in the one end of keeping away from LED lamp pearl flitch on the super hot pipe.

The utility model has the beneficial effects that: the heat generated by the LED lamp during working is conducted to the super-heat guide pipe through the LED lamp bead pasting plate, and then is conducted out through the super-heat guide pipe, meanwhile, the positive pole and the negative pole of the LED lamp are respectively and directly electrically connected with the super-heat guide pipe and the connecting ring, so that the super-heat guide pipe plays a role in heat conduction, and also plays a role in electric conduction.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an exploded view of the overall structure of the present invention;

FIG. 3 is a schematic view of a portion of the structure of the present invention;

FIG. 4 is a schematic view of the internal structure of the silicone cover of the present invention;

the reference signs are:

the super-heat pipe 1 is provided with a heat conducting pipe,

an LED lamp bead pasting board 2, an LED lamp 21,

adapter ring 3, silica gel cover 4, radiator 5.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

As shown in fig. 1 to 4, the high-efficiency heat-conducting LED light source includes a super-heat conduit 1, at least one group of LED lamp bead patch panels 2, an adapter ring 3, a transparent silica gel cover 4, and a heat sink 5.

The super heat pipe 1 and the adapter ring 3 are both made of metal materials, wherein the super heat pipe 1 is made of aluminum alloy or red copper, in the embodiment, in order to enable the super heat pipe 1 to have a better heat conduction effect, the super heat pipe 1 is preferably made of red copper; the interior of the super heat pipe 1 is hollow, which is beneficial to saving materials and reducing weight.

The LED lamp bead pasting plates 2 are fixedly pasted on the side face close to one end of the super-heat guide pipe 1, in the embodiment, the LED lamp bead pasting plates 2 are specifically provided with four groups and fixedly pasted on the side face of the super-heat guide pipe 1 in a circumferential array mode, and therefore the super-heat guide pipe can emit light within the range of one circle of three hundred sixty degrees of the super-heat guide pipe 1.

The LED lamp bead flitch 2 is fixedly pasted on the side face close to one end of the super-heat pipe 1 through heat conducting glue, and heat on the LED lamp bead flitch 2 is rapidly conducted to the super-heat pipe 1 by utilizing the heat conducting capacity of the heat conducting glue.

The LED lamp bead flitch 2 is fixed with at least a set of LED lamp 21, and in this embodiment, it is concrete, the fixed three LED lamps 21 of group that are provided with on every LED lamp bead flitch 2, and three LED lamps 21 of group are sharp equidistance and arrange.

The go-between cover is at the peripheral lower extreme of LED lamp pearl flitch 2, and passes through the tin cream welding between go-between and the LED lamp pearl flitch 2, does benefit to the electric connection between LED lamp 21 and the go-between.

The positive and negative poles of the LED lamp 21 are respectively electrically connected with the super-heat conduit 1 and the connecting ring, the structure relates to two connection modes, and the first connection mode is as follows: the anode of the LED lamp 21 is electrically connected with the super-heat conduit 1, and the cathode of the LED lamp 21 is electrically connected with the connecting ring; the second connection mode is as follows: the anode of the LED lamp 21 is electrically connected with the connecting ring, and the cathode of the LED lamp 21 is electrically connected with the super-heat conduit 1; the effect of the two connection modes is the same, in this embodiment, the connection mode specifically selected is: the anode of the LED lamp 21 is electrically connected with the super-heat conduit 1, and the cathode of the LED lamp 21 is electrically connected with the connecting ring, so that the super-heat conduit 1 plays a role in heat conduction and also plays a role in electric conduction.

Silica gel cover 4 fills in the periphery at LED lamp pearl flitch 2, because silica gel cover 4 is transparent, does not influence penetrating of light, and silica gel cover 4 also prevents its bumping or oxidation for LED lamp pearl flitch 2 provides the protection simultaneously.

The radiator 5 is fixed on the end, far away from the LED lamp bead flitch 2, of the super heat pipe 1, namely the radiator 5 is fixed at the lower end of the super heat pipe 1, the radiator 5 is made of aluminum, a plurality of groups of radiating fins are fixedly connected to the periphery of the radiator 5, the super heat pipe 1 conducts heat to the radiator 5, and heat dissipation is carried out through the radiating fins.

The working principle of the utility model is as follows: after the LED lamp is assembled, the super-heat guide pipe 1 is electrically connected with the anode of a power supply, the connecting ring is electrically connected with the cathode of the power supply, heat generated by the light emission of the LED lamp 21 is conducted to the super-heat guide pipe 1 through the LED lamp bead pasting plate 2, then the heat is conducted to the radiator 5 through the super-heat guide pipe 1, and finally the heat is radiated through the radiating fins.

Therefore, the equivalent changes made on the claims of the present invention still belong to the scope covered by the present invention, and the technical scope of the present invention is not limited by the above claims, and any modifications, equivalent changes and modifications made on the above embodiments according to the technical spirit of the present invention still belong to the technical scope of the present invention.

Claims (8)

1. An LED light source of high-efficient heat conduction which characterized in that: including super hot pipe, at least a set of LED lamp pearl flitch, adapter ring and transparent silica gel cover, super hot pipe and adapter ring are the metal material, the fixed side of pasting near super hot pipe one end of LED lamp pearl flitch, fixed a set of LED lamp at least that is provided with on the LED lamp pearl flitch, go-between cover is at the outlying lower extreme of LED lamp pearl flitch, the positive negative pole of LED lamp respectively with super hot pipe and go-between electric connection, the silica gel cover is filled and is covered in the periphery of LED lamp pearl flitch.

2. An efficient thermally conductive LED light source as recited in claim 1, further comprising: the interior of the super heat pipe is hollow.

3. An efficient thermally conductive LED light source as recited in claim 1, further comprising: the material of the super heat pipe is aluminum alloy or red copper.

4. An efficient thermally conductive LED light source as recited in claim 1, further comprising: the LED lamp bead flitch has four groups, and is fixed the side of pasting at super heat pipe in circumference array.

5. An efficient thermally conductive LED light source as recited in claim 1, further comprising: the LED lamp bead pasting plate is fixedly pasted on the side face close to one end of the super-heat guide pipe through heat conducting glue.

6. An efficient thermally conductive LED light source as recited in claim 1, further comprising: and the connecting ring and the LED lamp bead pasting plate are welded through solder paste.

7. An efficient thermally conductive LED light source as recited in claim 1, further comprising: and three groups of LED lamps are fixedly arranged on each group of LED lamp bead pasting plates and are arranged in a linear equidistant mode.

8. An efficient heat conducting LED light source as claimed in any one of claims 1-7, wherein: still include the radiator, the radiator is fixed and is kept away from the one end of LED lamp pearl flitch on super hot pipe.

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