CN221172157U - SMD lamp pearl heat dissipation base - Google Patents

Abstract

The utility model relates to the technical field of lamp bead bases and discloses an SMD lamp bead heat dissipation base which comprises a device body, wherein the device body comprises a base and a lamp bead body, the bottom end of the base is of an open design, a heat dissipation structure is arranged at the bottom end of the base and comprises a heat dissipation bottom plate, the heat dissipation bottom plate is arranged at the bottom end of the base, and heat dissipation holes are formed in two sides of the bottom end of the heat dissipation bottom plate in a penetrating mode. According to the utility model, the heat radiation structure is arranged, the device body is connected through the lifting seat, the lamp strip and other components, after the device body is installed, the device body is in a suspended state outside the lamp strip and other components through the support of the lifting seat, so that air can enter the base through the heat radiation holes on the heat radiation bottom plate, and by adopting the design, even after the device body is adjacently arranged in an array mode, the stable and good heat radiation effect can be achieved through the bottom air inlet heat radiation mode.

Description

SMD lamp pearl heat dissipation base

Technical Field

The utility model relates to the technical field of lamp bead bases, in particular to an SMD lamp bead heat dissipation base.

Background

SMDLED is that surface mounting emitting diode's meaning, and the SMD paster helps production efficiency to improve, and LED lamp pearl is in the use, and electric energy can not all be converted into light energy, and wherein a part can convert into heat energy, and operational environment temperature is too high, can make LED luminous efficacy reduce fast, produces obvious light decay and even life reduces, for example publication number CN219693173U discloses a LED lamp pearl heat dissipation base, including mounting panel, dead lever, damper, heat dissipation base, heat dissipation mechanism and LED lamp pearl, its characterized in that: the utility model provides a lamp pearl base, including the mounting panel, the mounting panel is fixed on the mounting panel, the dead lever is located along mounting panel circumferencial direction evenly distributed, damper is located on the dead lever, the four corners of heat dissipation base lateral wall is equipped with the connecting plate, the heat dissipation base utilizes the connecting plate to be connected with damper, damper locates on the heat dissipation base, LED lamp pearl equipartition is in the bottom of heat dissipation base, damper includes spout, slider, bumper shock absorber I, connecting rod, bumper shock absorber II and connecting piece, heat dissipation base includes heat-conducting plate, heat conduction hole, radiating fin, temperature sensor, air outlet and fan, can know that the base outside of some lamp pearl subassemblies can be offered the heat dissipation through-hole for let the air circulation play radiating effect, but because the heat dissipation through-hole is offered in the outside of base, and after the lamp pearl subassembly is installed on the lamp area, the clearance between the lamp pearl is less, and after the adjacent setting of lamp pearl subassembly, the radiating effect weakens greatly more, consequently, the design of a lamp pearl heat dissipation base.

Disclosure of utility model

In order to overcome the above-mentioned drawbacks of the prior art, the present utility model provides a heat dissipation base for SMD lamp beads, so as to solve the above-mentioned problems in the prior art.

The utility model provides the following technical scheme: the utility model provides a SMD lamp pearl radiating base, includes the device body, the device body includes base and lamp pearl body, the bottom of base is open design, the bottom of base is equipped with heat radiation structure, heat radiation structure includes radiating bottom plate, radiating bottom plate locates the bottom of base, the louvre has been seted up in the bottom both sides of radiating bottom plate running through, radiating bottom plate's bottom fixed mounting has the seat of raising, the inside of base is equipped with heat conduction component, and the device body is connected through components such as raising seat and lamp area, after the device body installation, through raising the support of seat for the device body is in unsettled state in the component outsides such as lamp area for inside the louvre on the accessible radiating bottom plate gets into the base, adopts this kind of design, even after the adjacent array form of device body is laid, also accessible bottom air intake radiating mode plays stable good radiating effect.

Furthermore, the number of the radiating holes on each side is at least one, and the arrangement of a plurality of radiating holes is beneficial to increasing the radiating efficiency.

Further, the top fixed mounting of radiating bottom plate has the filter screen, and when the air passed through the louvre and got into inside the base, can filter the dust in the air through the filter screen, can avoid the dust to get into inside the base, causes the condition of erosion to inside circuit and the component of base.

Further, the bottom fixed mounting of base has the frame, through the frame of protrusion base bottom for when the base lateral part received the water of splash, can avoid water directly to get into the inside condition of heat dissipation bottom plate through the louvre.

Further, the heat conduction assembly comprises heat conduction fins, the heat conduction fins are arranged in the base, embedded grooves penetrated by the heat conduction fins are formed in the outer side of the base, heat in the base can be absorbed through the heat conduction fins, the heat is guided to the outside of the base, and the overall heat dissipation effect of the device is improved.

Further, the shape of the heat conduction fin is a grid shape, and the heat conduction fin in the grid shape can increase the contact area between the heat conduction fin and heat as well as the outside, thereby being beneficial to improving the heat dissipation efficiency.

The utility model has the technical effects and advantages that:

1. According to the utility model, the heat radiation structure is arranged, the device body is connected through the lifting seat, the lamp strip and other components, after the device body is installed, the device body is in a suspended state outside the lamp strip and other components through the support of the lifting seat, so that air can enter the base through the heat radiation holes on the heat radiation bottom plate, and by adopting the design, even after the device body is adjacently arranged in an array mode, the stable and good heat radiation effect can be achieved through the bottom air inlet heat radiation mode.

2. According to the heat conduction device, the heat conduction assembly is arranged, the heat conduction fins penetrating through the base are in contact with air in the use process, the heat inside the base can be led outwards in an auxiliary mode, the overall heat dissipation effect of the base is improved, and the grid-shaped heat conduction fins are matched with the arrangement of the plurality of embedded grooves, so that the heat conduction efficiency is improved.

Drawings

Fig. 1 is a schematic perspective view of a first structure of the present utility model.

Fig. 2 is a schematic perspective view of a second structure of the present utility model.

Fig. 3 is a schematic perspective view of a first structure of the present utility model.

Fig. 4 is a schematic perspective view of a second structure of the present utility model.

The reference numerals are: 100. a device body; 110. a base; 111. a lamp bead body; 200. a heat dissipation structure; 210. a heat dissipation base plate; 211. a heat radiation hole; 212. raising the seat; 213. a frame; 214. a filter screen; 300. a heat conducting component; 310. a heat conduction fin; 311. embedded in the groove.

Detailed Description

The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings.

Embodiment one:

Referring to fig. 1-4, the utility model provides an SMD lamp bead heat dissipation base, which comprises a device body 100, wherein the device body 100 comprises a base 110 and a lamp bead body 111, the bottom end of the base 110 is of an open design, a heat dissipation structure 200 is arranged at the bottom end of the base 110, the heat dissipation structure 200 comprises a heat dissipation base plate 210, the heat dissipation base plate 210 is arranged at the bottom end of the base 110, heat dissipation holes 211 are formed in two sides of the bottom end of the heat dissipation base plate 210 in a penetrating manner, a lifting seat 212 is fixedly arranged at the bottom end of the heat dissipation base plate 210, a heat conduction component 300 is arranged in the base 110, the number of the heat dissipation holes 211 at each side is at least one, a filter screen 214 is fixedly arranged at the top end of the heat dissipation base 210, and a frame 213 is fixedly arranged at the bottom end of the base 110.

Working principle: when the lamp strip heat dissipation device is used, the lamp strip and other installation positions are aligned through the lifting seat 212, connection is carried out between the lifting seat 212 and the lamp strip, after installation, the base 110 protrudes out of the surface of the lamp strip, the heat dissipation bottom plate 210 is not contacted with the surface of the lamp strip, in the use process, air exchange between the inside and the outside of the base 110 is realized through the heat dissipation holes 211 on the heat dissipation bottom plate 210, and the whole heat dissipation of the device body 100 is realized.

Embodiment two:

The second embodiment differs from the first embodiment in that: the heat conduction assembly 300 comprises heat conduction fins 310, the heat conduction fins 310 are arranged in the base 110, embedded grooves 311 penetrated by the heat conduction fins 310 are formed in the outer side of the base 110, the heat conduction fins 310 are in a grid shape, in the use process, heat in the base 110 can be led outwards in an auxiliary mode through the heat conduction fins 310 penetrating through the base 110 and air contact, the overall heat dissipation effect of the base 110 is improved, and the grid-shaped heat conduction fins 310 are matched with the plurality of embedded grooves 311, so that heat conduction efficiency is improved.

Finally: the foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims (6)

1. The utility model provides a SMD lamp pearl radiating base, includes device body (100), device body (100) include base (110) and lamp pearl body (111), its characterized in that: the bottom of base (110) is open design, the bottom of base (110) is equipped with heat radiation structure (200), heat radiation structure (200) are including heat dissipation bottom plate (210), the bottom of base (110) is located to heat dissipation bottom plate (210), heat dissipation hole (211) have been seted up in the bottom both sides of heat dissipation bottom plate (210), the bottom fixed mounting of heat dissipation bottom plate (210) has lifting seat (212), the inside of base (110) is equipped with heat conduction subassembly (300).

2. The SMD bead heat dissipation base of claim 1, wherein: the number of the radiating holes (211) on each side is at least one.

3. The SMD bead heat dissipation base of claim 1, wherein: the top end of the heat dissipation bottom plate (210) is fixedly provided with a filter screen (214).

4. The SMD bead heat dissipation base of claim 1, wherein: the bottom end of the base (110) is fixedly provided with a frame (213).

5. The SMD bead heat dissipation base of claim 1, wherein: the heat conduction assembly (300) comprises heat conduction fins (310), wherein the heat conduction fins (310) are arranged in the base (110), and embedded grooves (311) penetrated by the heat conduction fins (310) are formed in the outer side of the base (110).

6. The SMD bead heat dissipation base of claim 5, wherein: the heat conducting fins (310) are in a grid shape.