CN219530785U - Radiating assembly for stage lamp - Google Patents

Abstract

The utility model discloses a heat dissipation assembly for stage lamps, which comprises: a heat-dissipating substrate; the first radiating fins, the second radiating fins, the third radiating fins and the fourth radiating fins are arranged at intervals on the outer side of one side surface of the radiating substrate, and accommodating cavities for accommodating the lamp source driving structure are formed on one side surfaces of the first radiating fins, the second radiating fins, the third radiating fins, the fourth radiating fins and the radiating substrate; the heat dissipation substrate is connected with the first heat dissipation fins, the second heat dissipation fins, the third heat dissipation fins and the fourth heat dissipation fins through the plurality of heat conduction pipes. Through the mode, the heat radiation assembly disclosed by the utility model can radiate heat of the lamp source driving structure through the heat radiation substrate, the plurality of heat conduction pipes, the first heat radiation fins, the second heat radiation fins, the third heat radiation fins and the fourth heat radiation fins, and has a good heat radiation effect.

Description

Radiating assembly for stage lamp

Technical Field

The utility model relates to the technical field of stage lamps, in particular to a heat dissipation assembly for stage lamps.

Background

The stage lamp is a novel lamp which uses LED lamp beads as light sources to be applied to stage lighting, and with the improvement of LED technology and the reduction of cost, the LED technology lamp plays an increasingly important role in the stage lighting industry.

Under the general condition, stage lamp is including lamp source drive structure and be used for radiating heat dissipation assembly to drive LED lamp pearl work through lamp source drive structure, and in order to can work for a long time, all can specifically set up radiating assembly and dispel the heat to lamp source drive structure, however, the radiating effect of the used radiating assembly of stage lamp on the market is poor, can't satisfy high-quality radiating effect, greatly reduced user's experience.

Disclosure of Invention

The utility model mainly solves the technical problem of providing the heat dissipation assembly for the stage lamp, which has good heat dissipation effect and greatly improves the experience of users.

In order to solve the technical problems, the utility model adopts a technical scheme that: the utility model provides a radiator unit that stage lamp was used, its characterized in that includes: a heat-dissipating substrate; the first radiating fins, the second radiating fins, the third radiating fins and the fourth radiating fins are arranged on the outer side of one side face of the radiating substrate at intervals, and accommodating cavities for accommodating the lamp source driving structures are formed on one side face of the first radiating fins, the second radiating fins, the third radiating fins, the fourth radiating fins and the radiating substrate; the heat dissipation substrate is connected with the first heat dissipation fins, the second heat dissipation fins, the third heat dissipation fins and the fourth heat dissipation fins through the heat conduction pipes.

Further, the plurality of heat pipes include a plurality of first heat pipes in L shape, a plurality of second heat pipes in L shape, a plurality of third heat pipes in L shape and a plurality of fourth heat pipes in L shape, wherein the heat dissipation base plate is equipped with first through hole, first heat dissipation fin is equipped with the first accommodation hole that corresponds with first through hole, the one end of first heat pipe wears to establish first accommodation hole and in the first through hole, the other end of first heat pipe is in the heat dissipation base plate is kept away from in the another side of first heat dissipation fin, the heat dissipation base plate is equipped with the second through hole, the second heat dissipation fin is equipped with the second accommodation hole that corresponds with the second through hole, the other end of second heat pipe is worn to establish in the second accommodation hole with in the second through hole, the other end of second heat conduction pipe is provided with the first heat dissipation fin is kept away from in the another side of second through hole, the base plate is equipped with the third through hole, the other end of third heat dissipation fin is provided with the third heat dissipation base plate is kept away from in the fourth through hole, the other end of fourth heat dissipation base plate is provided with the fourth through hole.

Further, a first accommodating groove, a second accommodating groove, a third accommodating groove and a fourth accommodating groove are formed in the other side face of the heat dissipation substrate at intervals, wherein the other end of the first heat conduction pipe is accommodated in the first accommodating groove, the other end of the second heat conduction pipe is accommodated in the second accommodating groove, the other end of the third heat conduction pipe is accommodated in the third accommodating groove, and the other end of the fourth heat conduction pipe is accommodated in the fourth accommodating groove.

Further, the plurality of heat conduction pipes further comprise a fifth heat conduction pipe in a U shape, a sixth heat conduction pipe in a U shape, a seventh heat conduction pipe in a U shape and an eighth heat conduction pipe in a U shape, and the heat dissipation substrate is provided with a fifth through hole, a sixth through hole, a seventh through hole, an eighth through hole, a ninth through hole, a tenth through hole, an eleventh through hole and a twelfth through hole; the first radiating fins are provided with fifth containing holes corresponding to the fifth through holes, the second radiating fins are provided with sixth containing holes corresponding to the sixth through holes, one ends of the fifth heat conduction pipes penetrate through the fifth containing holes and the fifth through holes, and the other ends of the fifth heat conduction pipes penetrate through the sixth containing holes and the sixth through holes; the second heat-radiating fins are provided with seventh containing holes corresponding to the seventh through holes, the third heat-radiating fins are provided with eighth containing holes corresponding to the eighth through holes, one end of the sixth heat-conducting pipe is arranged in the seventh containing holes and the seventh through holes in a penetrating mode, and the other end of the sixth heat-conducting pipe is arranged in the eighth containing holes and the eighth through holes in a penetrating mode; the third heat radiation fins are provided with ninth containing holes corresponding to the ninth through holes, the fourth heat radiation fins are provided with tenth containing holes corresponding to the tenth through holes, one end of the seventh heat conduction pipe is penetrated in the ninth containing holes and the ninth through holes, and the other end of the seventh heat conduction pipe is penetrated in the tenth containing holes and the tenth through holes; the fourth heat dissipation fin is provided with an eleventh accommodating hole corresponding to the eleventh through hole, the first heat dissipation fin is provided with a twelfth accommodating hole corresponding to the twelfth through hole, one end of the eighth heat conduction pipe is penetrated in the eleventh accommodating hole and the eleventh through hole, and the other end of the eighth heat conduction pipe is penetrated in the twelfth accommodating hole and the twelfth through hole.

Further, a fifth accommodating groove, a sixth accommodating groove, a seventh accommodating groove and an eighth accommodating groove are formed in the other side surface of the heat dissipation substrate at intervals, wherein the middle part of the fifth heat conduction pipe is accommodated in the fifth accommodating groove, the middle part of the sixth heat conduction pipe is accommodated in the sixth accommodating groove, the middle part of the seventh heat conduction pipe is accommodated in the seventh accommodating groove, and the middle part of the eighth heat conduction pipe is accommodated in the eighth accommodating groove.

Further, the fan comprises a first fan, a second fan, a third fan and a fourth fan, wherein the first fan is arranged on the inner side of the first radiating fin, the second fan is arranged on the inner side of the second radiating fin, the third fan is arranged on the inner side of the third radiating fin, and the fourth fan is arranged on the inner side of the fourth radiating fin.

Further, the lamp driving device further comprises a fixing frame which is arranged in the accommodating cavity and is rectangular and three-dimensional, wherein an accommodating space for accommodating the lamp driving structure is arranged in the fixing frame, and the first fan, the second fan, the third fan and the fourth fan are respectively arranged on four sides of the fixing frame.

Further, the heat dissipation device further comprises a silica gel back cover which is arranged on the heat dissipation substrate and used for covering the first heat dissipation fins, the second heat dissipation fins, the third heat dissipation fins and the fourth heat dissipation fins, wherein an air inlet hole is formed in the top of the silica gel back cover, and a plurality of air outlet holes are formed in the side wall of the silica gel back cover at intervals.

The beneficial effects of the utility model are as follows: compared with the prior art, the heat radiation component for the stage lamp disclosed by the utility model can transmit the heat of the heat radiation substrate to the first heat radiation fins, the second heat radiation fins, the third heat radiation fins and the fourth heat radiation fins through the plurality of heat conduction pipes so as to jointly radiate the light source driving structure through the heat radiation substrate, the plurality of heat conduction pipes, the first heat radiation fins, the second heat radiation fins, the third heat radiation fins and the fourth heat radiation fins, and meanwhile, the first heat radiation fins, the second heat radiation fins, the third heat radiation fins and the fourth heat radiation fins can be blown by the first fan, the second fan, the third fan and the fourth fan, so that the heat radiation effect is excellent, the high-quality heat radiation effect of a user can be met, and the experience of the user is greatly improved.

Drawings

FIG. 1 is a schematic view of a heat dissipating assembly for stage lamps according to the present utility model;

FIG. 2 is a first partial schematic structural view of the heat dissipating assembly of FIG. 1;

FIG. 3 is a second partial schematic view of the heat dissipating assembly of FIG. 1;

FIG. 4 is a third partial schematic view of the heat dissipating assembly of FIG. 1;

FIG. 5 is a fourth partial schematic view of the heat dissipating assembly of FIG. 1;

fig. 6 is a schematic structural diagram of a heat dissipating substrate of the heat dissipating assembly of fig. 1.

Detailed Description

As shown in fig. 1 to 6, the heat dissipation assembly for stage lamp includes a heat dissipation substrate 10, a first heat dissipation fin 11, a second heat dissipation fin 12, a third heat dissipation fin 13, a fourth heat dissipation fin 14 and a plurality of heat conduction pipes.

In the present embodiment, the heat dissipating substrate 10 has a circular shape, and it should be understood that the heat dissipating substrate 10 may be made of a metal material (such as an aluminum material) or other heat dissipating materials.

The first radiator fins 11, the second radiator fins 12, the third radiator fins 13 and the fourth radiator fins 14 are arranged at intervals outside one side surface of the radiator substrate 10.

Preferably, the first heat radiation fins 11, the second heat radiation fins 12, the third heat radiation fins 13 and the fourth heat radiation fins 14 are spaced around an edge provided at one side of the heat radiation substrate 10.

Further, the first heat dissipation fins 11 and the third heat dissipation fins 13 are symmetrically arranged, and the second heat dissipation fins 12 and the fourth heat dissipation fins 14 are symmetrically arranged.

In the present embodiment, the first heat dissipation fin 11, the second heat dissipation fin 12, the third heat dissipation fin 13, the fourth heat dissipation fin 14 and one side of the heat dissipation substrate 10 are formed with a housing cavity 100 for housing the lamp driving structure 20. It should be understood that, since the light source driving structure 20 is accommodated in the accommodating cavity 100, the heat generated by the light source driving structure 20 can be dissipated through the first heat dissipation fins 11, the second heat dissipation fins 12, the third heat dissipation fins 13, the fourth heat dissipation fins 14 and the heat dissipation substrate 10.

It should be noted that, the light source driving structure 20 is configured to drive the LED light beads to work, so the LED light beads can be disposed in the heat dissipation substrate 10 (i.e. the heat dissipation substrate 10 is provided with the LED light beads at corresponding positions), so that heat generated by the light beads and the light source driving structure can be dissipated through the heat dissipation substrate 10.

In the present embodiment, the heat dissipating substrate 10 is connected to the first heat dissipating fins 11, the second heat dissipating fins 12, the third heat dissipating fins 13, and the fourth heat dissipating fins 14 through a plurality of heat pipes.

It should be understood that the heat conducting tube has the functions of radiating and transferring heat, part of the heat radiating substrate 10 can radiate by itself, and the heat of another part of the heat radiating substrate 10 can be transferred to the first heat radiating fin 11, the second heat radiating fin 12, the third heat radiating fin 13 and the fourth heat radiating fin 14 through the plurality of heat conducting tubes, so as to further radiate the heat through the plurality of heat conducting tubes, the first heat radiating fin 11, the second heat radiating fin 12, the third heat radiating fin 13 and the fourth heat radiating fin 14.

In the present embodiment, the plurality of heat pipes includes a plurality of first heat pipes 101 having an L-shape, a plurality of second heat pipes 102 having an L-shape, a plurality of third heat pipes 103 having an L-shape, and a plurality of fourth heat pipes 104 having an L-shape.

Preferably, the heat dissipation substrate 10 is provided with a first through hole, the first heat dissipation fins 11 are provided with first accommodating holes corresponding to the first through hole, one end of the first heat conduction pipe 101 is arranged in the first accommodating holes and the first through hole in a penetrating manner, and the other end of the first heat conduction pipe 101 is arranged in the other side surface of the heat dissipation substrate 10 away from the first heat dissipation fins 11. It should be understood that the first accommodating hole and the first through hole may be further provided with a heat conducting material layer, so that the heat conducting effect is better.

Further, the heat dissipation substrate 10 is provided with a second through hole, the second heat dissipation fins 12 are provided with second accommodating holes corresponding to the second through holes, one end of the second heat conduction pipe 102 is arranged in the second accommodating holes and the second through holes in a penetrating mode, and the other end of the second heat conduction pipe 102 is arranged in the other side face, far away from the second heat dissipation fins 12, of the heat dissipation substrate 10. It should be understood that the second receiving hole and the second through hole may be further provided with a heat conductive material layer, so that the heat conductive effect is better.

Further, the heat dissipation substrate 10 is provided with a third through hole, the third heat dissipation fins 13 are provided with third accommodating holes corresponding to the third through holes, one end of the third heat conduction pipe 103 is arranged in the third accommodating holes and the third through holes in a penetrating mode, and the other end of the third heat conduction pipe 103 is arranged in the other side face, far away from the third heat dissipation fins 13, of the heat dissipation substrate 10. It should be understood that the third accommodating hole and the third through hole may be further provided with a heat conducting material layer, so that the heat conducting effect is better.

Further, the heat dissipation substrate 10 is provided with a fourth through hole, the fourth heat dissipation fins 14 are provided with fourth accommodating holes corresponding to the fourth through hole, one end of the fourth heat conduction pipe 104 is arranged in the fourth accommodating holes and the fourth through hole in a penetrating manner, and the other end of the fourth heat conduction pipe 104 is arranged in the other side surface of the heat dissipation substrate 10 far away from the fourth heat dissipation fins 14. It should be understood that the fourth accommodating hole and the fourth through hole may be further provided with a heat conducting material layer, so that the heat conducting effect is better.

In the present embodiment, a first accommodating groove 1011, a second accommodating groove 1021, a third accommodating groove 1031 and a fourth accommodating groove 1041 are disposed on the other side of the heat dissipating substrate 10, wherein the other end of the first heat pipe 101 is accommodated in the first accommodating groove 1011, the other end of the second heat pipe 102 is accommodated in the second accommodating groove 1021, the other end of the third heat pipe 103 is accommodated in the third accommodating groove 1031, and the other end of the fourth heat pipe 104 is accommodated in the fourth accommodating groove 1041.

It should be understood that when the other end of the first heat pipe 101 is received in the first receiving groove 1011, the other end of the second heat pipe 102 is received in the second receiving groove 1021, the other end of the third heat pipe 103 is received in the third receiving groove 1031, and the other end of the fourth heat pipe 104 is received in the fourth receiving groove 1041, the first heat pipe 101, the second heat pipe 102, the third heat pipe 103, and the fourth heat pipe 104 are not exposed to the other side surface of the heat dissipation substrate 10.

Further, in order to increase the heat conducting effect, the first receiving groove 1011, the second receiving groove 1021, the third receiving groove 1031 and the fourth receiving groove 1041 are filled with a heat conducting material.

In this embodiment, the plurality of heat pipes further includes a fifth heat pipe 105 having a U-shape, a sixth heat pipe 106 having a U-shape, a seventh heat pipe 107 having a U-shape, and an eighth heat pipe 108 having a U-shape.

Preferably, the heat radiating substrate 10 is provided with fifth, sixth, seventh, eighth, ninth, tenth, eleventh, and twelfth through holes.

Further, the first heat dissipation fin 11 is provided with a fifth accommodating hole corresponding to the fifth through hole, the second heat dissipation fin 12 is provided with a sixth accommodating hole corresponding to the sixth through hole, wherein one end of the fifth heat conduction pipe 105 is penetrated in the fifth accommodating hole and the fifth through hole, and the other end of the fifth heat conduction pipe 105 is penetrated in the sixth accommodating hole and the sixth through hole. It should be appreciated that the fifth heat pipe 105 may further fix the first radiator fins 11 and the second radiator fins 12 in addition to transferring heat to the first radiator fins 11 and the second radiator fins 12.

Further, the second heat dissipation fin 12 is provided with a seventh accommodating hole corresponding to the seventh through hole, the third heat dissipation fin 13 is provided with an eighth accommodating hole corresponding to the eighth through hole, wherein one end of the sixth heat conduction pipe 106 is penetrated in the seventh accommodating hole and the seventh through hole, and the other end of the sixth heat conduction pipe 106 is penetrated in the eighth accommodating hole and the eighth through hole. It should be appreciated that the sixth heat conduction pipe 106 may further fix the second radiator fins 12 and the third radiator fins 13 in addition to transferring heat to the second radiator fins 12 and the third radiator fins 13.

Further, the third heat dissipation fin 13 is provided with a ninth receiving hole corresponding to the ninth through hole, the fourth heat dissipation fin 14 is provided with a tenth receiving hole corresponding to the tenth through hole, wherein one end of the seventh heat conduction pipe 107 is penetrated in the ninth receiving hole and the ninth through hole, and the other end of the seventh heat conduction pipe 107 is penetrated in the tenth receiving hole and the tenth through hole. It should be understood that the seventh heat conduction pipe 107 may further fix the third heat radiation fin 13 and the fourth heat radiation fin 14 in addition to transferring heat to the third heat radiation fin 13 and the fourth heat radiation fin 14.

Further, the fourth heat dissipation fin 14 is provided with an eleventh receiving hole corresponding to the eleventh through hole, the first heat dissipation fin 11 is provided with a twelfth receiving hole corresponding to the twelfth through hole, one end of the eighth heat conduction pipe 108 is inserted into the eleventh receiving hole and the eleventh through hole, and the other end of the eighth heat conduction pipe 108 is inserted into the twelfth receiving hole and the twelfth through hole. It should be appreciated that the eighth heat conduction pipe 108 may further fix the fourth heat radiation fin 14 and the first heat radiation fin 11 in addition to transferring heat to the fourth heat radiation fin 14 and the first heat radiation fin 11.

Preferably, the other side surface of the heat dissipating substrate 10 is provided with a fifth accommodating groove 1051, a sixth accommodating groove 1061, a seventh accommodating groove 1071 and an eighth accommodating groove 1081 at intervals, wherein the middle part of the fifth heat conducting tube 105 is accommodated in the fifth accommodating groove 1051, the middle part of the sixth heat conducting tube 106 is accommodated in the sixth accommodating groove 1061, the middle part of the seventh heat conducting tube 107 is accommodated in the seventh accommodating groove 1071, and the middle part of the eighth heat conducting tube 108 is accommodated in the eighth accommodating groove 1081.

It is to be understood that when the middle portion of the fifth heat pipe 105 is accommodated in the fifth accommodation groove 1051, when the middle portion of the sixth heat pipe 106 is accommodated in the sixth accommodation groove 1061, when the middle portion of the seventh heat pipe 107 is accommodated in the seventh accommodation groove 1071, and when the middle portion of the eighth heat pipe 108 is accommodated in the eighth accommodation groove 1081, the middle portions of the fifth heat pipe 105, the sixth heat pipe 106, the seventh heat pipe 107, and the eighth heat pipe 108 are not exposed to the other side surface of the heat radiation substrate 10.

Of course, in order to increase the heat conduction effect, the fifth accommodation groove 1051, the sixth accommodation groove 1061, the seventh accommodation groove 1071, and the eighth accommodation groove 1081 are each filled with a heat conduction material.

Further, the heat dissipation assembly for stage lamp further comprises a first fan 21, a second fan 22, a third fan 23 and a fourth fan 24, wherein the first fan 21 is arranged on the inner side of the first heat dissipation fin 11, the second fan 22 is arranged on the inner side of the second heat dissipation fin 12, the third fan 23 is arranged on the inner side of the third heat dissipation fin 13, the fourth fan 24 is arranged on the inner side of the fourth heat dissipation fin 14, so that the heat dissipation effect is better by blowing the heat of the first heat dissipation fin 11 through the first fan 21, blowing the heat of the second heat dissipation fin 12 through the second fan 22, blowing the heat of the third heat dissipation fin 13 through the third fan 23 and blowing the heat of the fourth heat dissipation fin 14 through the fourth fan 24.

Further, the heat dissipation assembly for stage lamp further comprises a rectangular and three-dimensional fixing frame 25 disposed in the accommodating cavity 100, wherein an accommodating space for accommodating the lamp driving structure 20 is disposed in the fixing frame 25, and the first fan 21, the second fan 22, the third fan 23 and the fourth fan 24 are disposed on four sides of the fixing frame 25 respectively.

Specifically, the fixing frame 25 is disposed on the heat dissipating substrate 10 in a threaded connection manner, a first side surface of the fixing frame 25 is provided with a first mounting hole, the first fan 21 is mounted in the first mounting hole, a second side surface of the fixing frame 25 is provided with a second mounting hole, the second fan 22 is mounted in the second mounting hole, a third side surface of the fixing frame 25 is provided with a third mounting hole, the third fan 23 is mounted in the third mounting hole, a fourth side surface of the fixing frame 25 is provided with a fourth mounting hole, and the fourth fan 24 is mounted in the fourth mounting hole.

Further, the heat dissipation assembly for stage lamp further comprises a silica gel back cover 30, wherein the silica gel back cover 30 is disposed on the heat dissipation substrate 10 and is used for covering the first heat dissipation fins 11, the second heat dissipation fins 12, the third heat dissipation fins 13 and the fourth heat dissipation fins 14. It should be appreciated that the provision of the silicone back cover 30 may provide an aesthetic effect on the one hand and may also provide a waterproof and dustproof effect on the other hand.

Preferably, the top of the silica gel back cover 30 is provided with an air inlet 301, and the side wall of the silica gel back cover 30 is provided with a plurality of air outlet 302 at intervals.

It should be appreciated that in some embodiments, the heat dissipation assembly for stage lamps further comprises a fixing plate 26, wherein the fixing plate 26 is accommodated in the silica gel back cover 30, and the fixing plate 26 is fixed above the first heat dissipation fin 11, the second heat dissipation fin 12, the third heat dissipation fin 13 and the fourth heat dissipation fin 14.

In summary, the heat dissipation assembly for stage lamps disclosed by the utility model can transfer the heat of the heat dissipation substrate to the first heat dissipation fins, the second heat dissipation fins, the third heat dissipation fins and the fourth heat dissipation fins through the plurality of heat conduction pipes, so that the heat dissipation of the lamp driving structure is carried out through the heat dissipation substrate, the plurality of heat conduction pipes, the first heat dissipation fins, the second heat dissipation fins, the third heat dissipation fins and the fourth heat dissipation fins, and meanwhile, the heat of the first heat dissipation fins, the second heat dissipation fins, the third heat dissipation fins and the fourth heat dissipation fins can be blown away through the first fan, the second fan, the third fan and the fourth fan, the heat dissipation effect is excellent, the high-quality heat dissipation effect of users can be met, and the user experience is greatly improved.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (8)

1. A heat sink assembly for stage lamps, comprising:

a heat-dissipating substrate;

the first radiating fins, the second radiating fins, the third radiating fins and the fourth radiating fins are arranged on the outer side of one side face of the radiating substrate at intervals, and accommodating cavities for accommodating the lamp source driving structures are formed on one side face of the first radiating fins, the second radiating fins, the third radiating fins, the fourth radiating fins and the radiating substrate;

the heat dissipation substrate is connected with the first heat dissipation fins, the second heat dissipation fins, the third heat dissipation fins and the fourth heat dissipation fins through the heat conduction pipes.

2. The heat sink assembly for stage lamps according to claim 1, wherein the plurality of heat pipes comprises a plurality of first heat pipes in an L-shape, a plurality of second heat pipes in an L-shape, a plurality of third heat pipes in an L-shape, and a plurality of fourth heat pipes in an L-shape, wherein the heat dissipation substrate is provided with a first through hole, the first heat dissipation fins are provided with a first accommodating hole corresponding to the first through hole, one end of the first heat conduction pipe is arranged in the first containing hole and the first through hole in a penetrating way, the other end of the first heat conduction pipe is arranged in the other side surface of the heat dissipation substrate far away from the first heat dissipation fins, the heat dissipation substrate is provided with a second through hole, the second heat dissipation fins are provided with a second containing hole corresponding to the second through hole, one end of the second heat conduction pipe is arranged in the second containing hole and the second through hole in a penetrating way, the other end of the second heat conduction pipe is arranged in the other side surface of the heat dissipation substrate far away from the second heat dissipation fins, the heat dissipation substrate is provided with a third through hole, the third heat dissipation fins are provided with a third containing hole corresponding to the third through hole, one end of the third heat conduction pipe is penetrated in the third containing hole and the third through hole, the other end of the third heat conduction pipe is arranged in the other side surface of the heat dissipation substrate far away from the third heat dissipation fins, the heat dissipation substrate is provided with a fourth through hole, the fourth heat dissipation fins are provided with fourth containing holes corresponding to the fourth through hole, one end of the fourth heat conduction pipe penetrates through the fourth accommodating hole and the fourth through hole, and the other end of the fourth heat conduction pipe is arranged in the other side surface, far away from the fourth heat dissipation fins, of the heat dissipation substrate.

3. The heat sink assembly for stage lamps according to claim 2, wherein a first receiving recess, a second receiving recess, a third receiving recess and a fourth receiving recess are provided on the other side of the heat sink substrate at intervals, wherein the other end of the first heat pipe is received in the first receiving recess, the other end of the second heat pipe is received in the second receiving recess, the other end of the third heat pipe is received in the third receiving recess, and the other end of the fourth heat pipe is received in the fourth receiving recess.

4. The heat dissipation assembly for stage lamps according to claim 2, wherein the plurality of heat pipes further comprises a fifth heat pipe having a U-shape, a sixth heat pipe having a U-shape, a seventh heat pipe having a U-shape, and an eighth heat pipe having a U-shape, the heat dissipation substrate being provided with fifth, sixth, seventh, eighth, ninth, tenth, eleventh, and twelfth through holes;

the first radiating fins are provided with fifth containing holes corresponding to the fifth through holes, the second radiating fins are provided with sixth containing holes corresponding to the sixth through holes, one ends of the fifth heat conduction pipes penetrate through the fifth containing holes and the fifth through holes, and the other ends of the fifth heat conduction pipes penetrate through the sixth containing holes and the sixth through holes;

the second heat-radiating fins are provided with seventh containing holes corresponding to the seventh through holes, the third heat-radiating fins are provided with eighth containing holes corresponding to the eighth through holes, one end of the sixth heat-conducting pipe is arranged in the seventh containing holes and the seventh through holes in a penetrating mode, and the other end of the sixth heat-conducting pipe is arranged in the eighth containing holes and the eighth through holes in a penetrating mode;

the third heat radiation fins are provided with ninth containing holes corresponding to the ninth through holes, the fourth heat radiation fins are provided with tenth containing holes corresponding to the tenth through holes, one end of the seventh heat conduction pipe is penetrated in the ninth containing holes and the ninth through holes, and the other end of the seventh heat conduction pipe is penetrated in the tenth containing holes and the tenth through holes;

the fourth heat dissipation fin is provided with an eleventh accommodating hole corresponding to the eleventh through hole, the first heat dissipation fin is provided with a twelfth accommodating hole corresponding to the twelfth through hole, one end of the eighth heat conduction pipe is penetrated in the eleventh accommodating hole and the eleventh through hole, and the other end of the eighth heat conduction pipe is penetrated in the twelfth accommodating hole and the twelfth through hole.

5. The heat sink assembly for stage lamps according to claim 4, wherein a fifth receiving recess, a sixth receiving recess, a seventh receiving recess, and an eighth receiving recess are provided on the other side of the heat sink substrate at intervals, wherein a middle portion of the fifth heat pipe is received in the fifth receiving recess, a middle portion of the sixth heat pipe is received in the sixth receiving recess, a middle portion of the seventh heat pipe is received in the seventh receiving recess, and a middle portion of the eighth heat pipe is received in the eighth receiving recess.

6. The stage lighting heat dissipating assembly of claim 1, further comprising a first fan, a second fan, a third fan, and a fourth fan, wherein the first fan is disposed inside the first heat dissipating fin, the second fan is disposed inside the second heat dissipating fin, the third fan is disposed inside the third heat dissipating fin, and the fourth fan is disposed inside the fourth heat dissipating fin.

7. The heat dissipation assembly for stage lamps according to claim 6, further comprising a rectangular and three-dimensional fixing frame disposed in the housing cavity, wherein a housing space for housing the lamp driving structure is disposed in the fixing frame, and the first fan, the second fan, the third fan and the fourth fan are disposed on four sides of the fixing frame, respectively.

8. The heat dissipation assembly for stage lamps according to claim 6, further comprising a silica gel back cover disposed on the heat dissipation substrate for covering the first heat dissipation fins, the second heat dissipation fins, the third heat dissipation fins and the fourth heat dissipation fins, wherein an air inlet is formed at a top of the silica gel back cover, and a plurality of air outlets are formed at intervals on a side wall of the silica gel back cover.