A kind of lamp socket heat abstractor
Technical field
It the utility model is related to a kind of lamp cooling structure, more particularly to a kind of lamp socket heat abstractor.
Background technology
At present, stage lamp apparatus is typically built-in with reflector, and the bulb core of its light fixture can be built in inside reflector, because
During stage lighting use, bulb and reflector can produce substantial amounts of heat for this, due to thermal source be in reflector bottom with it is reflective
The light source on cup top, therefore the cooling mechanism of stage lighting is needed to uniformly being radiated in reflector, therefore existing universal is done
Method is:It is placed in using blower fan and reflector inside is blowed the both sides of reflector with radiating, or is used and wrapped outside reflector
Provided with being radiated with the orthogonal some blocks of heat sinks of reflector central axis to reflector.
But the existing simple stage heat sink for lamp that is radiated using blower fan or fin to reflector inside is equal
Following defect be present:
(1) heat abstractor directly dried using blower fan reflector inside, because stage lighting internal electronic element is more,
Using blower fan reflector inside to be blowed the method for radiating in reflector rim of a cup makes heat from hardly possible after the discharge of reflector cup
To be discharged inside stage lighting, the generation speed of hot gas is far longer than stage lamp housing heat extraction rate, hot gas is full of stage lighting
Inside, the stability of stage lighting in use, and the service life of stage lighting internal electronic element are reduced, while also added
The big probability of stage lighting damage.
(2) using fin wrap up in be located at reflector periphery method not only occupy substantial amounts of stage lighting inner space, and
Scatter that speed is slow, and structure is not compact enough, because fin majority is made of metal, therefore also increase stage lighting overall volume
With weight.
Utility model content
For overcome the deficiencies in the prior art, the purpose of this utility model is to provide a kind of stage lighting lamp socket radiating dress
Put, by setting blower fan in the relative both sides of reflector, make blower fan that radiating be blowed to reflector inside, make hot gas rapidly from
Discharged inside reflector, reflector inside stage lighting can be made to radiate evenly, radiating rate is faster.
The purpose of this utility model adopts the following technical scheme that realization:
A kind of lamp socket heat abstractor, including supporting plate, reflector and heat dissipation cavity, the reflector is built-in with bulb, described
Reflector is arranged on the supporting plate, and the heat dissipation cavity is arranged on the supporting plate and is located at the supporting plate with the reflector
The same side, the reflector both sides are relatively set with wind-guiding mouth and blower fan, and the wind-guiding mouth includes chamber shell, the chamber shell phase pair
Both ends have the air inlet and air outlet connected inside the chamber shell, and the air outlet of the wind-guiding mouth is located at the reflector
Inside cup, the air outlet of the blower fan is connected by the wind-guiding mouth with reflector inside.
Further, the supporting plate is provided with the opening for penetrating both sides above and below the supporting plate, and the heat dissipation cavity is arranged on described
The lower section of supporting plate;The reflector is fixed on below the supporting plate and in the heat dissipation cavity cavity;The reflector is set
In the opening, and the opening is set less than the rim of a cup of the reflector, the rim of a cup of the reflector towards the supporting plate;
The relative both sides of the reflector rim of a cup opening's edge are provided with breach, and the reflector cup outside is with inside by described
Breach connects, and the breach is used for support and fastens the wind-guiding mouth, the air outlet difference of blower fan described in the reflector both sides
Towards the reflector cup and be oppositely arranged, and connect the wind-guiding mouth respectively so that the air outlet of the blower fan pass through it is described
Wind-guiding mouth is connected with reflector inside, and the reflector bottom is provided with outside the connection reflector cup to be led to internal
Hole.
Further, the axis of the air inlet, and the wind-guiding are deviateed in the axis of the air outlet of the wind-guiding mouth
The air outlet of mouth is less than the air inlet, and the chamber shell has the first wind-guiding of the air outlet for being connected the air inlet and wind-guiding mouth
Inwall;
The first wind-guiding inwall favours the axis of the air inlet, and intersect with the air inlet it is at an acute angle, with
The air outlet of the wind-guiding mouth is intersecting in obtuse angle;
The chamber shell also has the second wind-guiding inwall of the air outlet for being connected the air inlet and wind-guiding mouth, and described second leads
Wind inwall is located at the relative opposite side of the first wind-guiding inwall, and the second wind-guiding inwall favours the axis of the air inlet
Line, and intersect in obtuse angle with the air inlet, intersect with the air outlet at an acute angle.
Further, the upper of the air outlet of the wind-guiding mouth has the wind deflector to stretch out, the wind deflector phase along linking
For horizontal tilt, and the end of the wind deflector is collapsed towards the central axis of the air outlet of the wind-guiding mouth;
One end that the first wind-guiding inwall is located at the air outlet of the wind-guiding mouth is connected with side plate, side plate one end rank
The first wind-guiding inwall is connected to, and angle of inclination is consistent with the first wind-guiding inwall, the top of the side plate is led with described
Aerofoil connects.
Further, the first ventilation breach is offered on the wind deflector, the first ventilation breach is located at the wind-guiding
In the middle part of one end of air outlet of the plate away from the wind-guiding mouth;
The second ventilation breach is offered on the wind deflector, the second ventilation breach has been located at wind deflector connection
State the relative opposite side of side plate.
Further, the air outlet lower edge of the wind-guiding mouth is connected in the breach lower edge, and the wind deflector is toward reflector
Bottom direction, which collapses, to be tilted, so that the direction of air outlet and the central axis of reflector are tangent.
Further, the central axis of reflector described in the first ventilation breach towards face.
Further, it is described first ventilation breach, it is described second ventilation breach respectively with the breach and the reflector
Inside connection so that the air outlet of the wind-guiding mouth, the first ventilation breach, the second ventilation breach three with it is described
Connected inside reflector.
Further, what the relative both sides of the heat dissipation cavity offered inside and outside the connection heat dissipation cavity respectively is first logical
Air port and the second ventilating opening, first ventilating opening and second ventilating opening are described respectively between blower fan described in both sides
Fan is correspondingly arranged on respectively on the outside of first ventilating opening and second ventilating opening, and fan passes through described first respectively described in both sides
Ventilating opening and second ventilating opening with connect inside the heat dissipation cavity, and steering on the contrary, ought wherein side ventilating opening formed into
During wind end, opposite side ventilating opening is air outlet.
Further, opening's edge is respectively arranged with towards reflector bottom direction on the inside of first ventilating opening and the second ventilating opening
The induced draft plate of extension.
Compared with prior art, the beneficial effects of the utility model are:
(1) by being oppositely arranged blower fan in reflector both sides, and air-flow is oriented to by it by the wind-guiding inwall of wind-guiding mouth
Middle side, make to be blown into two strands of air-flows formation vortical flow relative inside reflector, rotating belt is quickly carried out inside reflector
Reflector internal heat is walked, while reflector bottom offers through hole, can be by logical after vortical flow returns back to reflector bottom
Hot gas is discharged in hole, hot gas is discharged reflector rapidly, avoids what heat can not be discharged from hot gas after the discharge of reflector cup
Phenomenon.
(2) by being provided with fan in reflector bottom of cup both sides, after hot gas is discharged from reflector bottom, both sides are passed through
Fan one end is air intake with respect to reflector, and the other end is air outlet with respect to reflector, can be relatively low by external temperature rapidly
Air be pumped into heat dissipation cavity reflector radiated, while the hot gas band for being discharged reflector bottom by other end fan
Walk, reflector is radiated more uniform, heat extraction is quicker, stage lighting fault rate is reduced, during raising stage lighting use
Stability also extends the service life of stage lighting.
Brief description of the drawings
Fig. 1 is the utility model lamp socket heat abstractor overall structure view;
Fig. 2 is the utility model lamp socket construction for heat radiating device view;
Fig. 3 is the utility model lamp socket heat abstractor side cutaway view;
Fig. 4 is the utility model lamp socket heat abstractor opposite side side cutaway view;
Fig. 5 is that the utility model radiating cavity configuration attempts;
Fig. 6 is the utility model wind-guiding mouth front view;
Fig. 7 is the utility model wind-guiding mouth right view;
Fig. 8 is the utility model wind-guiding mouth rearview;
Fig. 9 is overview on rear side of the utility model wind-guiding mouth;
Figure 10 is overview on front side of the utility model wind-guiding mouth;
Figure 11 is the utility model wind-guiding mouth top view;
Figure 12 is the utility model wind-guiding mouth and reflector assembled view;
Figure 13 is that the utility model wind-guiding mouth assembles side cutaway view with reflector.
In figure:10th, supporting plate;11st, it is open;20th, reflector;21st, bulb;22nd, breach;30th, heat dissipation cavity;31st, the first ventilation
Mouthful;32nd, the second ventilating opening;33rd, induced draft plate;40th, wind-guiding mouth;41st, chamber shell;42nd, air inlet;43rd, the first wind-guiding inwall;44th,
Two wind-guiding inwalls;45th, wind deflector;46th, side plate;47th, the first ventilation breach;48th, the second ventilation breach;50th, blower fan;60th, fan.
Embodiment
Below, with reference to accompanying drawing and embodiment, the utility model is described further, it is necessary to explanation is,
On the premise of not colliding, it can be formed in any combination between various embodiments described below or between each technical characteristic new
Embodiment.
As Figure 1-4, in order that reflector 20 radiates more uniformly inside stage lighting, heat can more quickly discharge dance
Desk lamp, the utility model provide a kind of lamp socket heat abstractor, including supporting plate 10, reflector 20 and heat dissipation cavity 30, reflector 20
Bulb 21 is built-in with, reflector 20 is arranged on supporting plate 10, and heat dissipation cavity 30 is arranged on supporting plate 10 and with reflector 20 positioned at support
The same side of plate 10, the both sides of reflector 20 are relatively set with wind-guiding mouth 40 and blower fan 50, and wind-guiding mouth 40 includes chamber shell 41, chamber shell 41
Relative both ends have the air inlet 42 and air outlet inside connection chamber shell 41, and the air outlet of wind-guiding mouth 40 is located at reflector
Inside 20 cups, the air outlet of blower fan 50 is connected by wind-guiding mouth 40 with the inside of reflector 20.
Supporting plate 10 is provided with the opening 11 of insertion supporting plate both sides about 10, and heat dissipation cavity 30 is arranged on the lower section of supporting plate 10;It is reflective
Cup 20 is fixed on the lower section of supporting plate 10 and in the cavity of heat dissipation cavity 30;Reflector 20 is arranged at opening 11, and opening 11 is less than
The rim of a cup of reflector 20, the rim of a cup of reflector 20 are set towards supporting plate 10;
The relative both sides of the rim of a cup opening's edge of reflector 20 are provided with breach 22, and the cup of reflector 20 outside passes through breach 22 with internal
Connection, breach 22 are used for support and fastening wind-guiding mouth 40, and the air outlet of the both sides blower fan 50 of reflector 20 is respectively facing reflector 20
Cup and be oppositely arranged, and connect wind-guiding mouth 40 respectively so that blower fan 50 air outlet by wind-guiding mouth 40 and reflector 20 inside
Connection, the bottom of reflector 20 are provided with outside the connection cup of reflector 20 and internal through hole (not indicated in figure).
By the support wind-guiding mouth 40 of breach 22 of the both sides of reflector 20, blow out the air outlet of blower fan 50 of the both sides of reflector 20
Air-flow can be blown into by wind-guiding mouth 40 inside the cup of reflector 20, make each corner inside the cup of reflector 20 can be by gas
Stream is passed through, and air-flow forms hot gas after taking away the cup internal heat of reflector 20, and hot gas is due to by the both sides blower fan 50 of reflector 20
Blast limit can only toward the bottom of reflector 20 circulate, finally by the bottom of reflector 20 set through hole discharge reflector 20 in
Portion, while the reflector 20 is radiated rapidly, hot gas can also discharge behind each corner of the inside of reflector 20 from bottom,
Avoid air-flow from gathering the phenomenon that can not be discharged after absorbing the heat of reflector 20, make the integral heat sink of reflector 20 more uniform, hot gas
Also cup can be discharged rapidly.
As illustrated in figs. 6-11, the axis of air inlet 42, and wind-guiding mouth 40 are deviateed in the axis of the air outlet of wind-guiding mouth 40
Air outlet be less than air inlet 42, chamber shell 41 has the first wind-guiding inwall of the air outlet of linking air inlet 42 and wind-guiding mouth 40
43;First wind-guiding inwall 43 favours the axis of air inlet 42, and intersect with air inlet 42 it is at an acute angle, with going out for wind-guiding mouth 40
Air port is intersecting in obtuse angle, and the first wind-guiding inwall 43 for favouring air inlet 42 is provided with the inwall of wind-guiding mouth 40, makes blower fan 50
The wind of air outlet blowout changes wind direction after the first wind-guiding inwall 43, forms the wind direction of the oblique incision inwall of reflector 20, tiltedly
To after being blown into the inside of reflector 20, because the inside of reflector 20 is in funnel-shaped structure, air-flow can circle round along the inwall of reflector 20,
The quick migration of vortical flow is formed in the inwall of reflector 20, the internal heat of reflector 20 is quickly pulled away, simultaneously because reflective
20 inner wall surface relative smooths of cup, each corner of air-flow energy migration inside reflector 20, make the overall equal energy of reflector 20
Radiated, improve the stability during stage lighting use, reduce fault rate, while the air outlet of wind-guiding mouth 40 is less than air intake
Mouth 42, the blast of blowout wind-guiding mouth 40 is more than the blast for being blown into wind-guiding mouth 40, the heat in reflector 20 is passed through faster
The air-flow discharge of speed.
As preferred embodiment, chamber shell 41 also has the second of the air outlet of linking air inlet 42 and wind-guiding mouth 40 to lead
Wind inwall 44, the second wind-guiding inwall 44 are located at the relative opposite side of the first wind-guiding inwall 43, the second wind-guiding inwall 44 favour into
The axis in air port 42, and intersecting in obtuse angle with air inlet 42, intersects at an acute angle with the air outlet of wind-guiding mouth 40, is provided with inclination
Direction and the second wind-guiding of the identical inwall 44 of the first wind-guiding inwall 43, can make the wind for being blown into wind-guiding mouth 40 lead further to oblique cut
Enter the direction of the inwall of reflector 20, while in order that the air outlet size of wind-guiding mouth 40 is less than air inlet 42, in the present embodiment
The axis angle that second wind-guiding inwall 44 favours air inlet 42 is favoured in air inlet 42 less than the first wind-guiding inwall 43
The angle of axis.
In order that the air outlet blowout air-flow of wind-guiding mouth 40 can be imported inside reflector 20, while can quickly take away reflective
The heat of 20 bottom thermals source of cup, the upper of the air outlet of the wind-guiding mouth 40 have the wind deflector 45 to stretch out, wind deflector 45 along linking
Relative to horizontal tilt, and the end of wind deflector 45 is collapsed towards the central axis of the air outlet of wind-guiding mouth 40, air-flow is led to
Cross wind deflector 45 and be directly blown into the bottom of reflector 20, take away the heat of the bottom thermal source of reflector 20 rapidly;
In order that air-flow is uniformly blown into the inwall of reflector 20 from the same side of wind-guiding mouth 40, the first wind-guiding inwall 43, which is located at, leads
One end of the air outlet of tuyere 40 is connected with side plate 46, and the one end of side plate 46 is connected in the first wind-guiding inwall 43, and angle of inclination with
First wind-guiding inwall 43 is consistent, and the top of side plate 46 is connected with wind deflector 45, and in the present embodiment, side plate 46 is connected in the first wind-guiding
After wall 43, development length is less than the length of wind deflector 45.
The first ventilation breach 47 is offered on wind deflector 45, the first ventilation breach 47 is located at wind deflector 45 away from wind-guiding mouth 40
Air outlet one end in the middle part of, the first ventilation breach 47 is used to be directly blown onto the air-flow that wind-guiding mouth 40 is blown out and be placed in reflector 20
On internal bulb 21, due to the presence of wind deflector 45, the air-flow blown out from wind-guiding mouth 40 can all be oriented to the bottom of reflector 20
Or on the oblique incision inwall of reflector 20, now the Secondary Heat Source inside reflector 20 just can not directly be radiated, because
This offers the first ventilation breach 47 on wind deflector 45 can be such that fraction is blown out directly to bulb from the first ventilation breach 47
21 are radiated;
The second ventilation breach 48 is offered on wind deflector 45, the second ventilation breach 48 is located at wind deflector 45 and is connected with side plate 46
Relative opposite side, in order to allow the air-flow that the first wind-guiding inwall 43 and the second wind-guiding inwall 44 are oriented to can be preferably from wind-guiding mouth 40
Side is blown out, and is provided with the second ventilation breach 48, air-flow is blown out from the side of wind-guiding mouth 40, in oblique incision reflector 20
Portion.
As illustrated by figs. 12-13, the air outlet lower edge of wind-guiding mouth 40 is connected in the lower edge of breach 22, and wind deflector 45 is toward reflector 20
Bottom direction, which collapses, to be tilted, so that the direction of the air outlet of wind-guiding mouth 40 and the central axis of reflector 20 are tangent, the first ventilation
Breach 47 in the present embodiment, the first ventilation face bulb 21 of breach 47, enables air-flow towards the central axis of face reflector 20
Directly bulb 21 is radiated.
The first ventilation ventilation of breach 47, second breach 48 connects with breach 22 and the inside of reflector 20 respectively, so that wind-guiding
The air outlet of mouth 40, the first ventilation ventilation breach 48 of breach 47, second three connect with the inside of reflector 20, pass through blower fan 50
Air-flow is blown into after air inlet 42 and passes through breach 22 by reflector 20 and the heat of bulb 21 from the air outlet discharge of wind-guiding mouth 40
Take away.
As illustrated in figures 4-5, what the relative both sides of heat dissipation cavity 30 offered inside and outside connection heat dissipation cavity 30 respectively is first logical
Respectively between both sides blower fan 50, first is logical for the ventilating opening 32 of air port 31 and second, the first ventilating opening 31 and the second ventilating opening 32
The outside of 31 and second ventilating opening of air port 32 is correspondingly arranged on fan 60 respectively, and both sides fan 60 passes through the He of the first ventilating opening 31 respectively
The inside of second ventilating opening 32 and heat dissipation cavity 30 connect, and turns on the contrary, when wherein side ventilating opening formation air intake, opposite side
Ventilating opening is air outlet.
By setting fan 60 respectively in the both sides of heat dissipation cavity 30, and both sides fan 60 is turned on the contrary, can make from reflector
The hot gas of 20 bottom through-holes discharge is drained by wherein side fan 60, while opposite side fan 60 can be that heat dissipation cavity 30 sucks temperature
Relatively low air is spent to be absorbed heat outside the bottom of reflector 20, makes the entirety of reflector 20 and stage lighting radiating more equal
Even, heat extraction is rapider, avoids the heat production speed of reflector 20 from being more than the phenomenon of stage lighting heat extraction rate, improves stage lighting use
Stability under state, reduce component wear probability.
First ventilating opening 31 and the inner side opening's edge of the second ventilating opening 32 are respectively arranged with towards the extension of the bottom direction of reflector 20
Induced draft plate 33, because the inner space of heat dissipation cavity 30 is larger with respect to reflector 20, it is provided with the induced draft plate towards the bottom of reflector 20
33 can make the air-flow of fan 60 of the relatively low air of side inlet temperature be directly over the bottom of reflector 20, can also make opposite side
The fan 60 of the discharge bottom hot gas of reflector 20 directly siphons away the heat of the bottom of reflector 20 release.
In the present embodiment, blower fan 50 is turbofan, and due to turbofan small volume, the air flow direction of turbofan hangs down
Directly in rotating shaft, space-consuming inside stage lighting can be reduced to greatest extent, makes the lamp socket construction for heat radiating device compacter.
Fan 60 is ball fan, and ball fan has the characteristics of wear-resistant, long lifespan, in the both sides of heat dissipation cavity 30 using rolling
Pearl fan, the lamp socket heat abstractor spoilage can be made lower, avoid the high phenomenon of wearing detail replacement frequency.
Above-mentioned embodiment is only preferred embodiment of the present utility model, it is impossible to is protected with this to limit the utility model
Scope, the change of any unsubstantiality that those skilled in the art is done on the basis of the utility model and replacing belongs to
In the utility model scope claimed.