CN217274014U - Lamp holder radiator structure and stage waterproof moving head lamp - Google Patents

Abstract

The utility model discloses a waterproof lamp of shaking head of lamp holder radiator structure and stage belongs to movie & TV lamps and lanterns field, a lamp holder radiator structure, including base plate, light source radiator unit and heat-conducting component, light source radiator unit locates one side of base plate, heat-conducting component includes inside heat-conducting component and outside heat-conducting component, inside heat-conducting component with outside heat-conducting component locates relatively the both sides of base plate, outside heat-conducting component locates light source radiator unit's both sides, a waterproof lamp of shaking head of stage, including light source, lamp body and lamp holder radiator structure. The utility model discloses a set up the heat that inside heat conduction subassembly absorbed the lamp body internal environment, later get rid of the heat to the lamp body outside through outside heat conduction subassembly, the heat of light source passes through base plate and light source radiating component's the outside transmission of cooperation, has realized thermal quick discharge.

Description

Lamp holder radiator structure and stage waterproof moving head lamp

Technical Field

The utility model relates to a movie & TV lamps and lanterns field especially relates to a lamp holder radiator structure and waterproof lamp of shaking the head of stage.

Background

Powerful stage lamp, at the performance or when doing long-time exhibition, the heat dissipation of lamp holder can play very important effect, the lamp holder of traditional stage lamp of shaking the head is the heat dissipation that realizes the lamp body inside through the wall of die casting, the inner space ambient temperature that leads to the lamp holder from this is higher, long-term use causes the serious ageing of the interior electric elements of lamp body and structure easily, can normal work for making inside device and each item function, the urgent need study a good heat radiation structure is in order to guarantee the normal function of lamp of shaking the head.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a lamp holder radiator structure and the waterproof lamp of shaking the head of stage that heat dispersion is good and have waterproof function concurrently.

To achieve the purpose, the utility model adopts the following technical proposal: the lamp holder radiator structure comprises a substrate, a light source radiating assembly and a heat conducting assembly, wherein the light source radiating assembly is arranged on one side of the substrate, the heat conducting assembly comprises an inner heat conducting assembly and an outer heat conducting assembly, the inner heat conducting assembly and the outer heat conducting assembly are arranged on two sides of the substrate relatively, and the outer heat conducting assembly is arranged on two sides of the light source radiating assembly.

Furthermore, the internal heat conduction assembly comprises two internal heat conduction fin groups, each internal heat conduction fin group comprises a plurality of internal heat conduction fins which are arranged at intervals, and the two internal heat conduction fin groups are oppositely arranged and form a space which can contain the light source.

Furthermore, the external heat conduction assembly comprises two groups of external heat conduction fin groups which are oppositely arranged on two sides of the light source heat dissipation assembly, each external heat conduction fin group comprises a plurality of external heat conduction fins which are arranged at intervals and a U-shaped external heat conduction copper pipe which penetrates through the external heat conduction fins, and two ends of each external heat conduction copper pipe sequentially penetrate through the substrate and the internal heat conduction assembly.

Further, the light source heat dissipation assembly comprises a plurality of light source heat dissipation fins arranged at intervals and an oblong light source heat conduction copper pipe penetrating through the light source heat dissipation fins, one straight edge of the light source heat conduction copper pipe penetrates through the light source heat dissipation fins, and the other straight edge of the light source heat conduction copper pipe is connected with the substrate.

Furthermore, a mounting groove is formed in the joint of the substrate and the light source heat dissipation assembly, and corresponds to the straight edge of the light source heat conduction copper pipe, which is connected with the substrate.

Furthermore, the base plate with the junction of outside heat conduction subassembly is equipped with leads the gluey groove, it is filled with waterproof silica gel to lead gluey inslot.

The heat dissipation fan assembly comprises an internal heat dissipation fan assembly and a light source fan heat dissipation assembly, the internal heat dissipation fan assembly is arranged on the outer side of the internal heat conduction assembly, and the light source fan heat dissipation assembly is arranged on one side, far away from the substrate, of the light source heat dissipation assembly.

Further, light source fan radiator unit includes waterproof fan, mounting panel, erection column, the mounting panel is located light source radiator unit keeps away from one side of base plate, the mounting panel with the base plate passes through the erection column is connected, waterproof fan locates on the mounting panel.

Further, the utility model discloses still provide a waterproof lamp of shaking head of stage, including light source, lamp body and the arbitrary one of the aforesaid lamp holder radiator structure.

The utility model has the advantages that: absorb the heat of lamp body internal environment through setting up inside heat conduction subassembly, later get rid of the heat to the lamp body outside through outside heat conduction subassembly, the heat of light source passes through the outside transmission of base plate with light source radiator unit's cooperation, has realized thermal quick discharge, the utility model discloses relative only the wall heat dissipation through the die casting in the past, reduce the ambient temperature of waterproof lamps and lanterns lamp holder inner space by a wide margin to improve the life-span of the electric elements of producing and structure, improve product quality.

Drawings

The accompanying drawings are used for further explaining the present invention, but the content in the accompanying drawings does not constitute any limitation to the present invention.

Fig. 1 is an exploded view of the present invention;

FIG. 2 is an exploded view of FIG. 1 with the addition of a heat sink assembly;

FIG. 3 is an exploded view of FIG. 2 with the addition of a light source and lamp body;

FIG. 4 is a front view of the plane B-B in FIG. 1;

fig. 5 is a cross-sectional view perpendicular to the a-a plane in fig. 4.

Wherein: the light source heat dissipation device comprises a substrate 1, a mounting groove 11, a glue guide groove 12, a light source heat dissipation component 2, a light source heat conduction copper pipe 21, a heat conduction component 3, an internal heat conduction component 31, an internal heat conduction fin group 311, an external heat conduction component 32, an external heat conduction fin group 321, an external heat conduction copper pipe 3211, a heat dissipation fan component 4, an internal heat dissipation fan component 41, a light source fan heat dissipation component 42, a waterproof fan 421, a mounting plate 422, a mounting column 423, a light source 5 and a lamp body 6.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

Referring to fig. 1 to 5, the lamp holder heat sink structure of the present embodiment includes a substrate 1, a light source heat sink assembly 2 and a heat conducting assembly 3, the light source heat sink assembly 2 is disposed on one side of the substrate 1, the heat conducting assembly 3 includes an inner heat conducting assembly 31 and an outer heat conducting assembly 32, the inner heat conducting assembly 31 and the outer heat conducting assembly 32 are disposed on two sides of the substrate 1, and the outer heat conducting assembly 32 is disposed on two sides of the light source heat sink assembly 2.

The heat of the internal environment of the lamp body is absorbed by the internal heat conducting assembly 31, and then the heat is discharged to the outside of the lamp body through the external heat conducting assembly 32, and the heat of the light source 5 is transmitted outwards through the matching of the substrate 1 and the light source heat radiating assembly 2, so that the omnibearing rapid heat radiation of the lamp holder from inside to outside is effectively realized.

Preferably, the internal heat conducting assembly 31 includes two internal heat conducting fin sets 311, the internal heat conducting fin set 311 includes a plurality of internal heat conducting fins arranged at intervals, and the two internal heat conducting fin sets 311 are oppositely disposed and form a space capable of accommodating the light source 5.

By arranging the inner heat conducting fin sets 311 on both sides of the light source 5 for absorbing heat emitted from the light source 5, in the embodiment, the number of the inner heat conducting fin sets 311 is not limited to two, and the number thereof can be increased according to different products.

Preferably, the external heat conducting assembly 32 includes two sets of external heat conducting fin sets 321 oppositely disposed on two sides of the light source heat dissipating assembly 2, the external heat conducting fin sets 321 include a plurality of external heat conducting fins arranged at intervals and a U-shaped external heat conducting copper pipe 3211 penetrating through the external heat conducting fins, and two ends of the external heat conducting copper pipe 3211 sequentially penetrate through the substrate 1 and the internal heat conducting assembly 31.

The external heat conducting fin group 321 is disposed right below the internal heat conducting fin group 311, and after the internal heat conducting fin group 311 absorbs the heat inside the lamp body, the heat is transferred to the external heat conducting fin group 321 through the penetrating external heat conducting copper pipe 3211, and then the heat is transferred to the outside of the lamp body by the external heat conducting fin group 321.

Preferably, the light source heat dissipation assembly 2 includes a plurality of light source heat dissipation fins arranged at intervals and an oblong light source heat conduction copper tube 21 penetrating through the light source heat dissipation fins, one straight edge of the light source heat conduction copper tube 21 penetrates through the light source heat dissipation fins, and the other straight edge is connected with the substrate 1.

The light source 5 transfers heat to the substrate 1, and then one side of the light source heat conduction copper tube 21 connected with the substrate 1 guides the heat into the light source heat dissipation fins, in the embodiment, the long circular light source heat conduction copper tubes 21 are arranged in a plurality of numbers, straight edges penetrating through the light source heat dissipation fins are distributed at different positions such as the center and the periphery, the heat conduction capability of the light source heat dissipation fins is fully utilized, and the arc edges of the long circular light source heat conduction copper tubes 21 are arranged at two sides of the light source heat dissipation fins and directly transfer the heat to the outside of the lamp body.

Preferably, a mounting groove 11 is formed at a connection position of the substrate 1 and the light source heat dissipation assembly 2, and the mounting groove 11 corresponds to a straight edge of the light source heat conduction copper tube 21 connected with the substrate 1.

Through setting up mounting groove 11 for fixed light source heat conduction copper pipe 21 has increaseed light source heat conduction copper pipe 21 and base plate 1's area of contact simultaneously, has promoted the heat conduction effect.

Preferably, a glue guide groove 12 is formed at the joint of the substrate 1 and the external heat conduction assembly 32, and waterproof silica gel is filled in the glue guide groove 12.

Because of the lower position of the moving head lamp is easy to contact with a water source, in order to improve the waterproof capability of the lamp body, waterproof silica gel is filled in the gel guide groove 12, and the service life of the lamp is effectively prolonged.

Preferably, the heat dissipation device further comprises a heat dissipation fan assembly 4, wherein the heat dissipation fan assembly 4 comprises an internal heat dissipation fan assembly 41 and a light source fan heat dissipation assembly 42, the internal heat dissipation fan assembly 41 is arranged on the outer side of the internal heat conduction assembly 31, and the light source fan heat dissipation assembly 42 is arranged on one side, away from the substrate 1, of the light source heat dissipation assembly 2.

Through setting up inside radiator fan subassembly 41 in the outside of inside heat-conducting component 31, the quick heat dissipation of inside heat-conducting component 31 of help, and in the same way, light source fan radiator fan subassembly 42 also plays quick radiating effect.

Preferably, light source fan radiator unit 42 includes waterproof fan 421, mounting panel 422, mounting column 423, mounting panel 422 locates light source radiator unit 2 keeps away from one side of base plate 1, mounting panel 422 with base plate 1 passes through mounting column 423 connects, waterproof fan 421 locates on the mounting panel 422.

Light source fan radiator unit 42 is comparatively leaned on because of setting up the position, and the accessible contacts the water source, so the fan chooses for use waterproof fan 421, is equipped with fretwork portion on the mounting panel 422, and waterproof fan 421's air outlet corresponds with fretwork portion, realizes the convection current of cold and hot wind through fretwork portion.

Preferably, the utility model also provides a waterproof moving head lamp of stage, including locating light source 5, lamp body 6 and the lamp holder radiator structure in the middle of two sets of inside heat conduction fin groups 311.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (9)

1. A lamp holder radiator structure which is characterized in that: the LED lamp is characterized by comprising a substrate, a light source heat dissipation assembly and a heat conduction assembly, wherein the light source heat dissipation assembly is arranged on one side of the substrate, the heat conduction assembly comprises an inner heat conduction assembly and an outer heat conduction assembly, the inner heat conduction assembly and the outer heat conduction assembly are arranged on two sides of the substrate relatively, and the outer heat conduction assembly is arranged on two sides of the light source heat dissipation assembly.

2. A lamp cap heat sink structure as claimed in claim 1, wherein: the internal heat conduction assembly comprises two internal heat conduction fin groups, each internal heat conduction fin group comprises a plurality of internal heat conduction fins which are arranged at intervals, and the internal heat conduction fin groups are oppositely arranged and form a space which can contain a light source.

3. A lamp cap heat sink structure as claimed in claim 2, wherein: the external heat conduction assembly comprises two groups of external heat conduction fin groups which are oppositely arranged on two sides of the light source heat dissipation assembly, each external heat conduction fin group comprises a plurality of external heat conduction fins which are arranged at intervals and a U-shaped external heat conduction copper pipe which penetrates through the external heat conduction fins, and two ends of each external heat conduction copper pipe sequentially penetrate through the substrate and the internal heat conduction assembly.

4. A lamp cap heat sink structure as claimed in claim 1, wherein: the light source heat dissipation assembly comprises a plurality of light source heat dissipation fins which are arranged at intervals and an oblong light source heat conduction copper pipe which penetrates through the light source heat dissipation fins, one straight edge of the light source heat conduction copper pipe penetrates through the light source heat dissipation fins, and the other straight edge of the light source heat conduction copper pipe is connected with the substrate.

5. The structure of claim 4, wherein: the connection part of the substrate and the light source heat dissipation assembly is provided with a mounting groove, and the mounting groove corresponds to the straight edge of the light source heat conduction copper pipe, which is connected with the substrate.

6. A lamp cap heat sink structure according to claim 1, wherein: the joint of the substrate and the external heat conduction assembly is provided with a glue guide groove, and waterproof silica gel is filled in the glue guide groove.

7. A lamp cap heat sink structure as claimed in claim 1, wherein: the heat dissipation fan assembly comprises an inner heat dissipation fan assembly and a light source fan heat dissipation assembly, the inner heat dissipation fan assembly is arranged on the outer side of the inner heat conduction assembly, and the light source fan heat dissipation assembly is arranged on one side, far away from the substrate, of the light source heat dissipation assembly.

8. The structure of claim 7, wherein: the light source fan radiating assembly comprises a waterproof fan, a mounting plate and a mounting column, the mounting plate is arranged on one side of the base plate, the mounting plate is connected with the base plate through the mounting column, and the waterproof fan is arranged on the mounting plate.

9. The utility model provides a waterproof lamp of shaking head of stage which characterized in that: the lamp holder heat sink structure comprises a light source, a lamp body and the lamp holder heat sink structure as recited in any one of claims 1 to 8.

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