CN220249929U - Efficient radiator for lamp - Google Patents

Abstract

The utility model discloses a high-efficiency radiator for a lamp, which comprises a radiating aluminum ring and a radiator, wherein the radiator is formed by mutually connecting a plurality of radiating fins in a surrounding mode, a plurality of mounting lugs are arranged on the inner side of the radiating aluminum ring, a plurality of fixing holes are formed in the bottoms of the radiating fins, the radiating aluminum ring is arranged at the bottom of the radiator, the mounting lugs and the fixing holes are fixedly connected through fasteners, the high-efficiency radiating effect can be achieved through mutual matching between the radiating aluminum ring and the radiating fins, and the radiator is convenient to install and stable in connection.

Description

Efficient radiator for lamp

Technical Field

The utility model belongs to the technical field of radiators, and particularly relates to a high-efficiency radiator for a lamp.

Background

The lamp is common lighting equipment in our daily life and is widely applied to various fields such as families, businesses, public places and the like. With the development of technology and the improvement of lighting quality requirements, the performance and the effect of the lamp are also greatly focused. However, due to the long-term use and high-power light emitting elements, the lamp generates a large amount of heat, which may cause poor heat dissipation of the lamp, affecting its service life and performance stability.

In the conventional lamp radiator, aluminum alloy radiating fins are often used for radiating heat, and the radiating performance is not efficient enough. Moreover, conventional heat sinks have some problems in terms of mounting and connection. Firstly, the connection mode between the radiating fins is usually fixed by adopting a screw or a fastener, but the connection mode is easy to loosen, so that the gap between the radiating fins is increased, and the radiating effect is affected. Secondly, the installation of the radiating fin needs an independent fixing device, the installation process is complicated, and the manufacturing cost and the labor cost are increased, so that the radiator is a main disadvantage of the traditional technology.

Disclosure of Invention

Aiming at the technical problems in the background art, the utility model aims to provide the lamp efficient radiator which can realize efficient heat dissipation, is convenient to install and is stable to connect, so as to solve the technical problems in the background art.

In order to achieve the above purpose, the present utility model provides the technical scheme: the utility model provides a high-efficient radiator of lamps and lanterns, its includes heat dissipation aluminium ring and radiator, and this radiator is encircleed interconnect by a plurality of fin and is constituteed, and this heat dissipation aluminium ring inboard is equipped with a plurality of installation lugs, and a plurality of fixed perforation have been seted up to this fin bottom, and this heat dissipation aluminium ring sets up in this radiator bottom, and this installation lug is fixed through the fastener connection between this fixed perforation.

Feeding in

Further, the upper end of the radiating fin is provided with an upper connecting part, the front end of the upper connecting part is provided with a connecting clamping block, the rear end of the upper connecting part is provided with a connecting clamping groove, the connecting clamping block and the connecting clamping groove are symmetrically arranged, and the connecting clamping block is arranged in the connecting clamping groove.

Further, an upper fixing buckle is arranged on one side of the upper connecting part, an upper fixing through hole is formed in the rear end of the upper fixing buckle, the upper fixing buckle and the upper fixing through hole are symmetrical, and the upper fixing buckle is inserted into the upper fixing through hole.

Further, a reinforcing edge is arranged on one side of the upper joint part.

Further, the front end of the lower joint part is relatively provided with a connecting plug block, a fixed plug block is arranged between the connecting plug blocks, the rear end of the lower joint part is provided with a connecting slot symmetrical to the connecting plug block, a fixed slot is arranged between the connecting slots, the connecting plug block is inserted into the connecting slot, and meanwhile, the fixed plug block passes through the fixed slot and is fixedly attached to the surface of the lower joint part.

Further, a lower fixing buckle is arranged on one side of the lower connecting part, lower fixing through holes are symmetrically arranged at the rear ends of the lower fixing buckles, and the lower fixing buckles are inserted into the lower fixing through holes.

Further, a stabilizing plate is arranged on one side of the radiating fin, a stabilizing clamping block is arranged at the front end of the stabilizing plate, stabilizing clamping grooves are symmetrically formed in the rear ends of the stabilizing clamping blocks, and the stabilizing clamping blocks are inserted into the stabilizing clamping grooves.

Further, the other side of the radiating fin is provided with an anti-moving plate, the stabilizing plate and the anti-moving plate are symmetrically arranged on the left side and the right side of the radiating fin respectively, the front end of the anti-moving plate is provided with an anti-moving clamping block, the rear end of the anti-moving clamping block is provided with an anti-moving clamping groove, and the anti-moving clamping block is inserted into the anti-moving clamping groove.

The utility model has the following advantages: the radiating fins are mutually connected in a surrounding array at intervals, the radiating aluminum rings are fixedly arranged at the bottoms of the radiating fins, the radiating fins are matched with the radiating aluminum rings, the efficient radiating effect can be achieved, and the radiating fin is convenient to install and stable in connection.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a schematic exploded view of the present utility model.

Fig. 3 is a schematic view of a heat sink according to the present utility model.

Fig. 4 is a schematic view of a heat sink according to the present utility model.

Reference numerals: a heat-dissipating aluminum ring 10; a heat sink 20; an upper joint 21; a connecting clamping block 211; a connection card slot 212; an upper stabilizing clasp 213; upper stabilizing perforation 214; reinforcing edges 215; a lower joint 22; a connection plug 221; a fixed plug 222; a connection slot 223; a fixed slot 224; a lower stabilizing buckle 225; lower stabilizing perforation 226; a stabilizing plate 23; an anti-migration plate 24; a stabilizing clamp 231; a stabilizing slot 232; an anti-moving clamping block 241; anti-migration card slot 242; a connecting ring groove 11; a mounting ear 111; a connection through hole 112; a fixing perforation 227; the snap-fit mounting location 12.

Detailed Description

As shown in fig. 1 to 4, the efficient radiator for a lamp comprises a heat dissipation aluminum ring 10 and a radiator, wherein the radiator is formed by mutually connecting a plurality of radiating fins 20 in a surrounding array, the heat dissipation aluminum ring 10 is arranged at the bottoms of the plurality of radiators and penetrates through the heat dissipation aluminum ring 10 through a fastener to be connected and fixed with the radiating fins 20, so that the heat dissipation aluminum ring 10 and the radiating fins 20 are matched to achieve an efficient heat dissipation effect, and the efficient radiator is simple and convenient to install.

In particular, the heat-dissipating aluminum ring 10 is made of an aluminum material, so that a rapid heat dissipation effect can be achieved.

The upper end of the heat sink 20 is provided with an upper joint part 21, the front end of the upper joint part 21 is provided with a connecting clamping block 211, the rear end of the upper joint part 21 is provided with a connecting clamping groove 212, the connecting clamping blocks 211 and the connecting clamping grooves 212 are symmetrically arranged, when two adjacent heat sinks 20 are connected during installation, the connecting clamping blocks 211 of the heat sink 20 are arranged in the connecting clamping grooves 212 of the other heat sink 20, and the upper ends of a plurality of heat sinks 20 are mutually connected at intervals, so that the heat dissipation is convenient, and the installation is convenient.

The upper connecting portion 21 has an upper fixing buckle 213 disposed at one side, an upper fixing hole 214 is formed at the rear end of the upper fixing buckle 213, the upper fixing buckle 213 is symmetrical with the upper fixing hole 214, and the upper fixing buckle 213 is inserted into the upper fixing hole 214 of the other heat sink 20 during installation, so as to prevent the upper ends of the heat sinks 20 from turning up outwards, and the connection is stable and firm.

The upper joint part 21 is provided with a reinforcing edge 215 on one side, and when in use, the reinforcing edge 215 can prevent bending deformation during installation, and the use is more stable.

The lower end of the heat sink 20 is provided with a lower joint part 22, the front end of the lower joint part 22 is provided with a connecting plug block 221 relatively, a fixed plug block 222 is arranged between the connecting plug blocks 221, a connecting slot 223 symmetrical to the connecting plug block 221 is arranged at the rear end of the lower joint part 22, a fixed slot 224 is arranged between the connecting slots 223, the connecting plug block 221 is inserted into the connecting slot 223 when being installed, and meanwhile, the fixed plug block 222 passes through the fixed slot 224 to be fixedly stuck on the surface of the lower joint part 22, so that the lower ends of two adjacent heat sinks are connected at intervals, and the installation is convenient.

The lower connecting portion 22 has a lower fixing buckle 225 on one side, the rear end of the lower fixing buckle 225 is symmetrically provided with a lower fixing through hole 226, and the lower fixing buckle 225 is inserted into the lower fixing through hole 226 during installation, so as to prevent the lower ends of the plurality of heat radiating fins 20 from turning outwards, and the connection is stable and firm.

The two sides of the middle part of the heat sink 20 are respectively provided with a stabilizing plate 23 and an anti-moving plate 24, the stabilizing plates 23 and the anti-moving plates 24 are respectively symmetrically arranged on the left side and the right side of the heat sink 20, the front end of the stabilizing plate 23 is provided with a stabilizing clamping block 231, the rear end of the stabilizing clamping block 231 is symmetrically provided with a stabilizing clamping groove 232, the front end of the anti-moving plate 24 is provided with an anti-moving clamping block 241, the rear end of the anti-moving clamping block 241 is provided with an anti-moving clamping groove 242, during installation, the stabilizing clamping block 231 is inserted into the stabilizing clamping groove 232, and the anti-moving clamping block 241 is inserted into the anti-moving clamping groove 242, so that a plurality of heat sinks 20 can be prevented from moving up and down, and connection is stable.

The heat dissipation aluminum ring 10 is in a circular ring shape, the inner edge of the heat dissipation aluminum ring 10 is concavely provided with a connecting ring 8 groove 11, the inner edge of the connecting ring groove 11 is provided with a plurality of mounting lugs 111, the surfaces of the plurality of mounting lugs 111 are provided with connecting through holes 112, the surfaces of the lower connecting parts 22 of the heat dissipation fins 20 are provided with fixing through holes 227, the connecting through holes 112 correspond to the fixing through holes 227, and when in installation, the lower connecting parts 22 are embedded in the connecting ring groove 11 and penetrate through the connecting through holes 112 through fasteners to be connected and fixed with the fixing through holes 227, so that the heat dissipation aluminum ring 10 is fixedly installed at the bottoms of the plurality of heat dissipation fins 20, the heat dissipation fins 20 can be stably and fixedly connected, and the heat dissipation effect with high efficiency can be realized through mutual matching, and the installation is convenient.

The inner side of the heat dissipation aluminum ring 10 is provided with a plurality of buckle installation positions 12, and the buckle installation positions 12 can be conveniently matched with the clamping positions on the lampshade for connection and fixation, so that the heat dissipation aluminum ring is convenient to install.

The fastener is a screw, a bolt or a screw rod, etc.

In summary, the plurality of radiating fins 20 are mutually connected in an array in a surrounding way at intervals, the bottom of each radiating fin 20 is fixedly provided with the radiating aluminum ring 10, and the radiating aluminum ring 10 and the plurality of radiating fins 20 are mutually matched to realize the efficient radiating effect, so that the radiating fin is convenient to install and stable in connection.

Claims (8)

1. The utility model provides a high-efficient radiator of lamps and lanterns, its characterized in that, it includes heat dissipation aluminium ring (10) and radiator, and this radiator is encircleed interconnect by a plurality of fin (20) and is constituteed, and this heat dissipation aluminium ring (10) inboard is equipped with a plurality of installation ear (111), and a plurality of fixed perforation (227) have been seted up to this fin (20) bottom, and this heat dissipation aluminium ring (10) set up in this radiator bottom, and is fixed through the fastener connection between this installation ear (111) and this fixed perforation (227).

2. The efficient heat radiator for a lamp as claimed in claim 1, wherein an upper connecting portion (21) is provided at an upper end of the heat sink (20), a connecting clamping block (211) is provided at a front end of the upper connecting portion (21), a connecting clamping groove (212) is provided at a rear end of the upper connecting portion (21), the connecting clamping block (211) and the connecting clamping groove (212) are symmetrically arranged, and the connecting clamping block (211) is arranged in the connecting clamping groove (212).

3. The efficient heat sink of a lamp as claimed in claim 2, wherein an upper fixing buckle (213) is provided at one side of the upper connecting portion (21), an upper fixing through hole (214) is provided at a rear end of the upper fixing buckle (213), the upper fixing buckle (213) and the upper fixing through hole (214) are symmetrical, and the upper fixing buckle (213) is inserted into the upper fixing through hole (214).

4. A luminaire high efficiency radiator as claimed in claim 3, characterized in that the upper joint (21) is provided with a reinforcing rim (215) on one side.

5. The efficient radiator for lamp as claimed in claim 4, wherein a lower connection part (22) is provided at a lower end of the heat sink (20), connection plugs (221) are provided at a front end of the lower connection part (22) opposite to each other, a fixing plug (222) is provided between the connection plugs (221), a connection slot (223) symmetrical to the connection plug (221) is provided at a rear end of the lower connection part (22), a fixing slot (224) is provided between the connection slots (223), the connection plug (221) is inserted into the connection slot (223), and the fixing plug (222) passes through the fixing slot (224) and is tightly fixed on a surface of the lower connection part (22).

6. A lamp efficient radiator according to claim 5, characterized in that a lower fixing buckle (225) is arranged at one side of the lower connecting part (22), lower fixing through holes (226) are symmetrically arranged at the rear end of the lower fixing buckle (225), and the lower fixing buckle (225) is inserted into the lower fixing through holes (226).

7. The efficient heat sink of a lamp as claimed in claim 6, wherein a stabilizing plate (23) is disposed at one side of the heat sink (20), a stabilizing clamping block (231) is disposed at a front end of the stabilizing plate (23), a stabilizing clamping slot (232) is symmetrically disposed at a rear end of the stabilizing clamping block (231), and the stabilizing clamping block (231) is inserted into the stabilizing clamping slot (232).

8. The efficient radiator for a lamp as claimed in claim 7, wherein an anti-moving plate (24) is disposed on the other side of the heat sink (20), the stabilizing plate (23) and the anti-moving plate (24) are symmetrically disposed on the left and right sides of the heat sink (20), an anti-moving clamping block (241) is disposed at the front end of the anti-moving plate (24), an anti-moving clamping groove (242) is disposed at the rear end of the anti-moving clamping block (241), and the anti-moving clamping block (241) is inserted into the anti-moving clamping groove (242).