CN205678469U - Novel high-power planoconvex spotlight spotlight - Google Patents

Abstract

Novel high-power planoconvex spotlight spotlight, including lamp housing, heat-dissipating luminous composite module, focusing structure module, display control module and power module.Lamp housing includes cover module, base, drive end bearing bracket module, rear end cap module, it is attached by slide block guide groove between upper cover module and base, the overall front end that three is formed is connected with drive end bearing bracket module by front shoe, and its rear end is connected with rear end cap module by rear fixed plate；Heat-dissipating luminous composite module is arranged in lamp housing, including light path module and radiating module, described light path module includes COB integrated optical source, light source light receiving device and aspherical mirror, planoconvex lens, and this center line is all on the same axis；Power module includes power supply signal plug-in unit and power supply, and power supply signal plug-in unit is connected with power supply, and power supply signal plug-in unit is connected with display control module.The utility model has that high-power, low cost, specular removal, easy accessibility, easy access, heat-sinking capability be good and the feature of length in service life.

Description

Novel high-power planoconvex spotlight spotlight

Technical field

The utility model relates to spotlight, specifically a kind of novel high-power planoconvex spotlight spotlight.

Background technology

Spotlight (spotlight), refers to the lamp utilizing optically focused camera lens or speculum etc. to carry out optically focused.Spotlight is permissible Projecting high directivity light beam, it can produce very bright specular and the shadow region that lines are distinct, tone is deeply dark.

Optically focused class light fixture has multiple in the market, and the feature of spotlight is that the distance of irradiation light projection is remote, and scope is bright Aobvious, radiation direction is strong, and its optical quality is high, and uniformity is good, can make illuminated object edge clear, clean cut, is preferable Local transparent effect light fixture.Current Fresnel lens spotlight is most, and Fresnel lens spotlight is Fresnel spotlight, its Optical system is made up of Fresnel Lenses and spherical reflector, and light source luminescent body is centrally located at the sphere center position of spherical reflector, Make light source move forward and backward along optical axis direction by focus adjusting mechanism, change the spot size of projection.The photograph of Fresnel spotlight The focusing angular range of degree and hot spot is all very limited.

With science and technology development, the technology of LED light source is very ripe and has had extensive answering in a lot of fields With.LED spotlight is good with its light efficiency, saves the energy, and service life is long, gradually substitutes tradition halogen tungsten lamp light source, LED100W light efficiency Substantially suitable with tradition halogen tungsten lamp 1kw, therefore LED spotlight is the direction of development at present.But owing to light source is by many Chip package forms or is arranged on same pcb board by many independent LED and forms, and has square or circular arrangement, When light source is positioned at the focal plane position of Fresnel Lenses, Fresnel Lenses will project the picture of the LED chip of proper alignment, light Spot presents multiple blockage, rather than the uniform light spots of circle, therefore, can affect the radiation response of LED spotlight.Although passing through Out of focus can improve the shape of hot spot, but after out of focus, beam angle will become bigger, and due to the existence of aberration, has the time Spot edge there is also yellow circle, still can greatly affect the radiation response of spotlight.

The lighting effect of spotlight and heat dissipation problem are always the emphasis of spotlight research, the light source heat radiation problem of spotlight On the one hand can affect the service life of spotlight, on the other hand also can affect the lighting effect of spotlight, if can be by spotlight Light path system be combined with cooling system, improve service life of spotlight and lighting effect, the development to LED spotlight There is important Research Significance.

Following documents discloses a few money spotlight:

Documents 1:CN204285014U discloses a kind of LED planoconvex spotlight spotlight, including lamp body shell, described Lamp body shell light outlets at be provided with lens jacket, described lens jacket is provided with planoconvex spotlight；One radiator and one Light source module is connected with each other and is placed in described lamp body enclosure；Luminous end at described light source module is provided with supplementary lens, One lens carrier and described radiator are fixing to be connected, on described lens carrier and be positioned at the front of described supplementary lens and set It is equipped with a Fresnel lens.

Documents 2:CN202017944U discloses a kind of high-power LED projector lamp, including lamp body, is provided with in this lamp body High-power LED light source device, is correspondingly provided with non-spherical lens on front side of this LED light source device, coordinates solid on front side of this non-spherical lens Surely having optically focused planoconvex spotlight, described LED light source device is driven by electric power supply control system.Described LED light source device includes being arranged at It high-power LED light source module in lamp body, is correspondingly arranged at the collector lens assembly on front side of this LED light source module and is fixed on Heat abstractor on rear side of LED light source module, this heat abstractor and LED light source module are all connected with described electric power supply control system.

Utility model content

The technical problems to be solved in the utility model is to provide a kind of high-power, low cost, specular removal, easy accessibility, side Just maintenance, heat-sinking capability is good and the novel planoconvex spotlight spotlight of length in service life.

In order to solve above-mentioned technical problem, the utility model by the following technical solutions:

A kind of novel high-power planoconvex spotlight spotlight of the utility model, comprising: lamp housing, heat-dissipating luminous composite module, tune Burnt construction module, display control module and power module；

Described lamp housing includes cover module, base, drive end bearing bracket module, rear end cap module, logical between upper cover module and base Cross slide block guide groove to be attached, the overall front end that upper cover module, slide block guide groove, base three are formed by front shoe with front End cap module connects, and its rear end is connected with rear end cap module by rear fixed plate；

Heat-dissipating luminous composite module is arranged in lamp housing, including light path module and radiating module, described light path module includes LED light source, light source light receiving device and one-level eyeglass, two grades of eyeglasses；Described LED light source is COB integrated optical source；Described one-level eyeglass For aspherical mirror, described two grades of eyeglasses are planoconvex lens；Described planoconvex lens, aspherical mirror, light source light receiving device, COB integrated optical source Center line is all on the same axis；Described light source light receiving device is the cylinder of both ends open, including light inlet, reflecting part and go out light Mouthful, one end of cylinder is the light-emitting window of light source light receiving device, and light-emitting window end is provided with the taper surface in recessed cylinder, described taper surface Opening is formed on bottom, is the light inlet of light source light receiving device, and the end face of light inlet is in same water with the end face of the other end of cylinder In plane, described taper surface is provided with vacuum coating, constitutes the reflecting part of light source light receiving device together with taper surface, described enter Light mouth is more than light-emitting window；

Described power module includes power supply signal plug-in unit and power supply, and power supply signal plug-in unit is connected access 220V electricity with power supply Pressure, power supply signal plug-in unit is connected with display control module.

Further,

Described lamp housing also includes shading door leaf module, lamp body handle module, rear end cap handle；

Described shading door leaf module is arranged on drive end bearing bracket module front end；Described lamp body handle module locks hand by lamp body handle Handle and fixed screw are installed module with the lamp body handle being arranged on slide block guide groove and are connected；Described rear end cap handle is arranged on rear end In cover module.

Further,

The bottom of described base is provided with air inlet cover, and described base is additionally provided with foot pad.

Further,

Described aspherical mirror is fixed on the light-emitting window of light source light receiving device, aspherical mirror pressing plate and light by aspherical mirror pressing plate Aspherical mirror silica gel buffer gasket is set between the light receiving device of source；Described planoconvex lens is fixed on drive end bearing bracket module by front shoe On, planoconvex lens compressing tablet is set between planoconvex lens and front shoe.

Further,

The outer wall of described light source light receiving device cylinder is provided with circular array micropore, the beneficially heat radiation of light source.

Further,

Described radiating module includes radiator, and described radiator passes through frame for fixing heat sink and radiator support is solid Fixed, described light source light receiving device is fixing with frame for fixing heat sink to be connected, and described COB integrated optical source is fixing on a heat sink, described Aspherical mirror is fixed on the light-emitting window of light source light receiving device；

Based on the light-emitting area of COB integrated optical source, COB integrated optical source is 10 ± 2mm with the distance of aspherical mirror.

Further,

The cylinder of described light source light receiving device is positioned at one end of light inlet and connects outer to extending around formation light receiving device, described Light receiving device connects outer and is provided with fixing hole, and light receiving device is solid with frame for fixing heat sink by stud or the screw through fixing hole Fixed connection.

Further,

Described radiator is heat-pipe radiator, and described heat-pipe radiator is led to by some vertically fin parallel, equally spaced If crossing dry heat pipe and connecting fixing；Having the hole that can pass through heat pipe on described fin, heat pipe passes through the hole on fin, will heat radiation Piece is horizontal equidistant to be concatenated and fixes；Described inside heat pipe fills high-efficiency heat conduction medium, and inside heat pipe is vacuum state.

Further,

Described cooling system also includes the fan being arranged on the top of radiator, and described fan can cover whole radiator top Portion；

Described fan is arranged over out windshield, described go out windshield be fixed on radiator support by connecting plate.

Further,

According to the needs of spotlight hot spot effect, can also be at described aspherical mirror (one-level eyeglass) and planoconvex lens (two grades Eyeglass) between also set up some middle eyeglasses, described middle eyeglass is fixed by lens carrier, and the quantity of middle eyeglass can be entered The actual light efficiency of row needs to be configured.

The rising angle of described aspherical mirror is at 30 ± 2 °, it is ensured that its rising angle completely at the diameter range of planoconvex lens, Realize that secondary goes out making full use of of light.Described aspherical mirror can select the eyeglass of different focal according to actual needs.

The operation principle of the light path module of the utility model spotlight:

Light path module of the present utility model includes COB integrated optical source, light source light receiving device, aspherical mirror, planoconvex lens, four Center line is all on the same axis, it is ensured that can realize optimal optical effect.During work, the light sending of COB integrated optical source leads to The light inlet crossing light source light receiving device enters, and light source is carried out receiving light, the vacuum coating on taper surface by the taper surface of light source light receiving device Layer can increase the reflectivity of light, and aspherical mirror (one-level eyeglass) is fixed on the light-emitting window of light source light receiving device, it is achieved filling of light Divide and utilize.The rising angle of aspherical mirror is at about 30 ° (30 ± 2 °), it is ensured that its rising angle is completely at planoconvex lens (two grades of mirrors Piece) diameter range, it is achieved secondary goes out making full use of of light.

Distance between light source and aspherical mirror depends on the receipts optical range of aspherical mirror, in like manner, planoconvex lens and light source Distance also depends on the receipts optical range of planoconvex lens, receives optical range and depends primarily on aspherical mirror, the size of planoconvex lens and focal length.This Owing to aspherical mirror is fixed on the light-emitting window of light source light receiving device in utility model, therefore aspherical mirror is at light to the distance of light source On the light receiving device of source set in advance；And the different optical effect that the distance between planoconvex lens from light source realizes as required and The size of planoconvex lens and focal length are set.

When only aspherical mirror, planoconvex lens two-stage eyeglass in light path, aspherical mirror as light source one-level light-emitting window, Planoconvex lens is as two grades of light-emitting windows；When, in light path, according to the needs of actual optical effect, setting between aspherical mirror and planoconvex lens Putting N number of middle eyeglass, middle eyeglass can be fixed by lens carrier, then aspherical mirror goes out light as light source one-level Mouthful, planoconvex lens is as N+2 level light-emitting window.

The operation principle of the radiating module of the utility model spotlight:

The COB integrated optical source of the utility model spotlight is fixed on heat-pipe radiator, and heat-pipe radiator is by a large number vertically Fin is connected by heat pipe, has a bigger area of dissipation, thus the heat radiation of beneficially light source；Meanwhile, at heat-pipe radiator Being provided above fan up exhausting, can improving the heat-sinking capability of system further, during exhausting, wind is from the air intake of base bottom Lid enters, and by the fin of heat-pipe radiator, takes away heat, and is sent from the windshield that goes out at top by fan；Additionally, light Line, by after the absorption of light source light receiving device, can also be dispelled the heat by the circular array micropore on light source light receiving device cylinder body outer wall.? Under the common effect of radiator, double fan and light source light receiving device heat radiation micropore, improve the heat-sinking capability of whole system, improving While spotlight light efficiency effect, moreover it is possible to improve the service life of light fixture.

The beneficial effects of the utility model:

1st, lamp housing of the present utility model uses modular construction, by upper cover module, base, drive end bearing bracket module, rear end cover mold Block assembles and is formed, and is attached by slide block guide groove between upper cover module and base, convenient dismounting, assembling and maintenance.

2nd, LED light source of the present utility model uses COB integrated optical source, and COB integrated optical source is again COB area light source, is by LED The specular removal integrated area source technology that chip is placed directly against on the mirror metal substrate of high reflecting rate, manufacturing process is short, low cost. COB integrated optical source can simply be interpreted as the integrated area source of high power, can according to product design structure design light source go out light Area and appearance and size.Its product has: electrically stable, circuit design, optical design, heat dissipation design are scientific and reasonable；It is easy to produce The secondary optics of product is supporting, improves lighting quality；High colour developing, luminous uniform, specular removal, health environment-friendly；Install simple, user Just, reduce Design of Luminaires difficulty, save the features such as light fixture processing and follow-up maintenance cost.

3rd, light path module of the present utility model uses planoconvex lens replace traditional Fresnel lens, can effectively promote poly- The illumination of light modulation, expands the focusing angular range of hot spot.Light efficiency module and radiating module are effectively combined, it is possible to achieve spotlight Light efficiency increase by more than 15%.

4th, arranging light source light receiving device in light path module of the present utility model, its reflecting part is taper surface, true on taper surface Empty film plating layer can increase the reflectivity of light, and one-level light-emitting window uses aspherical mirror, it is possible to achieve making full use of of light；Two Level light-emitting window uses planoconvex lens to can guarantee that out the effect of light.Light source light receiving device, aspherical mirror and the combination of planoconvex lens three, can have Effect ensures the light efficiency of spotlight.

5th, it is provided with foot pad on base of the present utility model, seat wear when foot pad is possible to prevent to place, can also protect simultaneously Card air intake is unobstructed.

6th, owing to aspherical mirror, planoconvex lens belong to fragile article, the utility model arranges aspherical mirror silica gel buffer gasket Cushioning effect is played when being respectively used to fixing aspherical mirror, planoconvex lens with planoconvex lens compressing tablet.

7th, the outer wall of the light source light receiving device cylinder in the utility model is provided with circular array micropore, and beneficially light source is scattered Heat.

8th, the radiator in the utility model is heat-pipe radiator, and radiator is by a large amount of vertical fin by heat pipe even Connect, add the stable fastness of radiator and be effectively increased area of dissipation, being in mute operating state at fan and also may be used To meet cooling requirements, moreover it is possible to improve the service life of light fixture.

9th, in the utility model radiator be provided above can cover the fan of whole radiator, its area coverage Greatly, the heat on whole thermal source can be taken away, improve heat-sinking capability；And use single large area fan, it is avoided that because of simultaneously Use the noise that multiple small fan brings in running.Such as: use single fan of 140 × 140 × 25, can cover bigger Area, compare and use the fan of two 80 × 80 × 25, although substantially can meet the requirement of area coverage, but double fan If needing to meet the air draft ability of equipment, its noise also can just and then increase, and affects the performance of spotlight.

10th, the spotlight in documents the 1st, documents 2 compared by spotlight of the present utility model, and lamp housing uses modularization Design, dismounts convenient, it is simple to maintenance；Secondly, radiating module of the present utility model and light source module combination forms heat radiation Light composite module, can not only improve the heat-sinking capability of light source and the design of light path makes the lighting effect of spotlight significantly carry Rise；Radiating module of the present utility model forms a system from radiator to heat dissipation ventilation passage, substantially increases heat-sinking capability； In addition use COB integrated optical source to be greatly reduced the cost of spotlight, and the power of spotlight can be improved.

To sum up, novel high-power planoconvex spotlight spotlight of the present utility model has high-power, low cost, specular removal, tears open Dress convenience, convenience are overhauled, heat-sinking capability is good and the feature of length in service life.

Brief description

In order to be illustrated more clearly that the utility model embodiment or technical scheme of the prior art, below will be to embodiment Or the accompanying drawing of required use is briefly described in description of the prior art, it should be apparent that, the accompanying drawing in describing below is only It is some embodiments of the present utility model, for those of ordinary skill in the art, in the premise not paying creative work Under, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the overall structure schematic diagram of the utility model spotlight；

Fig. 2 is the stereo-resolution structural representation of the utility model spotlight；

Fig. 3 is the stereo-resolution structural representation of the heat-dissipating luminous composite module of the utility model embodiment spotlight；

Fig. 4 is the overall structure schematic diagram of the heat-dissipating luminous composite module of the utility model embodiment spotlight；

Fig. 5 is the fractionation structural representation of the light path module of the utility model embodiment spotlight；

Fig. 6 is the perspective view of the light source light receiving device of the utility model embodiment；

Fig. 7 is the side view of the light source light receiving device of the utility model embodiment；

Fig. 8 is the fractionation structural side view of the heat-dissipating luminous composite module of the utility model embodiment spotlight；

Fig. 9 is the overall structure side view of the heat-dissipating luminous composite module of the utility model embodiment spotlight；

Figure 10 is the technical parameter figure of prior art COB integrated optical source spotlight；

Figure 11 is the technical parameter figure of the utility model spotlight；

Above-mentioned reference:

Upper cover module 11；Base 12；Drive end bearing bracket module 13；Rear end cap module 14；Slide block guide groove 15；Shading door leaf module 16； Lamp body handle module 17；Rear end cap handle 18；Lamp body handle set lever 171；Fixed screw 172；Lamp body handle installs module 173；Air inlet cover 121；Foot pad 122；Front shoe 131；Rear fixed plate 141；

Heat-dissipating luminous composite module 2；COB integrated optical source 211；Light source light receiving device 212；Aspherical mirror 213；Planoconvex lens 214； Planoconvex lens compressing tablet 2141；Aspherical mirror pressing plate 215；Aspherical mirror silica gel buffer gasket 2151；Light inlet 2121；Light-emitting window 2122；Taper surface 2123；Circular array micropore 2124；Light receiving device connects outer 2125；Fixing hole 2126；Heat-pipe radiator 221； Frame for fixing heat sink 222；Radiator support 223；Connecting plate 224；Fan 225；Go out windshield 226；

Focusing structure module 3；Display control module 4；Power supply signal plug-in unit 51；Power supply 52.

Detailed description of the invention

Below in conjunction with the accompanying drawings and utility model is further illustrated by embodiment, but be not limited to model of the present utility model Enclose.

Embodiment 1

As shown in figs 1-9, the present embodiment provides a kind of novel high-power planoconvex spotlight spotlight, comprising: lamp housing, heat radiation are sent out Light composite module the 2nd, focusing structure module 3, display control module 4 and power module.

Described lamp housing includes cover module the 11st, base the 12nd, drive end bearing bracket module the 13rd, rear end cap module 14, upper cover module 11 with It is attached by slide block guide groove 15 between base 12, the entirety that upper cover module the 11st, slide block guide groove the 15th, base 12 three is formed Front end is connected with drive end bearing bracket module 13 by front shoe 131, and its rear end is by rear fixed plate 141 with rear end cap module 14 even Connect；Described lamp housing also includes shading door leaf module 16, lamp body handle module 17, rear end cap handle 18；Shading door leaf module 16 is arranged on Drive end bearing bracket module 16 front end；Lamp body handle module 17 by lamp body handle set lever 171 and fixed screw 172 be arranged on cunning Lamp body handle on block guide groove 18 is installed module 173 and is connected；Rear end cap handle 18 is arranged in rear end cap module 14.

The bottom of base 12 is provided with air inlet cover 121, and base 12 is additionally provided with foot pad 122, at the bottom of when foot pad is possible to prevent to place Seat abrasion, also ensures that air intake is unobstructed simultaneously.

Heat-dissipating luminous composite module 2 is arranged in lamp housing, including light path module and radiating module, described light path module includes COB integrated optical source the 211st, light source light receiving device 212 and aspherical mirror the 213rd, planoconvex lens 214；Described planoconvex lens the 214th, aspherical mirror 213rd, the center line of light source light receiving device the 212nd, COB integrated optical source 211 is all on the same axis, it is achieved optimal optical effect.Light The cylinder that source light receiving device 212 is both ends open, including light inlet the 2121st, reflecting part and light-emitting window 2122, one end of cylinder is The light-emitting window 2122 of light source light receiving device, light-emitting window end is provided with the taper surface 2123 in recessed cylinder, the end of described taper surface 2123 Portion forms opening, is the light inlet 2121 of light source light receiving device, and the end face of light inlet is in same with the end face of the other end of cylinder On horizontal plane, described taper surface 2123 is provided with vacuum coating, constitutes the reflecting part of light source light receiving device together with taper surface, Described light inlet 2121 is more than light-emitting window 2122；

Power module 5 includes power supply signal plug-in unit 51 and power supply 52, and power supply signal plug-in unit 51 is connected with power supply 52 and accesses 220V voltage, power supply signal plug-in unit 51 is connected with display control module 4.

In the present embodiment, aspherical mirror 213 goes out light by what aspherical mirror pressing plate 215 was fixed on light source light receiving device 212 Mouth 2122, arranges aspherical mirror silica gel buffer gasket 2151 between aspherical mirror pressing plate 215 and light source light receiving device 212；Planoconvex lens 214 are fixed in drive end bearing bracket module 12 by front shoe 131, arrange planoconvex lens pressure between planoconvex lens 214 and front shoe 131 Piece 2141.Owing to aspherical mirror, planoconvex lens belong to fragile article, the present embodiment arranges aspherical mirror silica gel buffer gasket and plano-convex Mirror compressing tablet is respectively used to play cushioning effect when fixing aspherical mirror, planoconvex lens.

The outer wall of light source light receiving device 212 cylinder is provided with circular array micropore 2124, the beneficially heat radiation of light source.

Described radiating module includes heat-pipe radiator 221, and heat-pipe radiator 221 is by frame for fixing heat sink 222 and dissipates Hot device bracing frame 223 is fixed, and light source light receiving device 212 is fixing with frame for fixing heat sink 222 to be connected, and COB integrated optical source 211 is fixed On heat-pipe radiator 221, aspherical mirror 213 is fixed on the light-emitting window of light source light receiving device 212；

Based on the light-emitting area of COB integrated optical source 211, COB integrated optical source 211 with the distance of aspherical mirror 213 is 10mm。

The cylinder of light source light receiving device 212 is positioned at one end of light inlet 2121 and connects outer to extending around formation light receiving device 2125, light receiving device connects outer 2125 and is provided with fixing hole 2126, and light source light receiving device 212 is by the stud through fixing hole 2126 Or screw and frame for fixing heat sink 222 is fixing is connected.

If heat-pipe radiator 221 is connected fixing by some vertically fin parallel, equally spaced by dry heat pipe；Described scattered Having the hole that can pass through heat pipe on backing, heat pipe passes through the hole on fin, equidistant by horizontal for fin and fixes；Institute Stating inside heat pipe and filling high-efficiency heat conduction medium, inside heat pipe is vacuum state.

Described radiating module also includes the fan 225 being arranged on the top of heat-pipe radiator 221, and fan 225 can cover whole Individual radiator, its area coverage is big, can take the heat on whole thermal source away, improves heat-sinking capability.Fan 225 is arranged over out Windshield 226, is gone out windshield 226 and is fixed on radiator support 223 by connecting plate 224.

In the present embodiment use 140 × 140 × 25 single fan, can cover bigger area, compare use two 80 × The fan of 80 × 25, although substantially can meet the requirement of area coverage, but if double fan needs to meet the air draft of equipment Ability, its noise also just can and then increase, affect the performance of spotlight.

In the present embodiment, the rising angle of aspherical mirror 3 is at 30 °, it is ensured that its rising angle straight at planoconvex lens 214 completely Footpath scope, it is achieved secondary goes out making full use of of light.Distance between COB integrated optical source 211 and aspherical mirror 213 depends on aspheric The receipts optical range of face mirror 213, in like manner, the distance of planoconvex lens 214 and COB integrated optical source 211 also depends on the receipts light of planoconvex lens 214 Scope, receives optical range and depends primarily on size and the focal length of lens (that is: aspherical mirror, planoconvex lens).

The light path module of the present embodiment includes COB integrated optical source the 211st, light source light receiving device the 212nd, aspherical mirror the 213rd, planoconvex lens 214, the center line of four is all on the same axis, it is ensured that can realize optimal optical effect.Its operation principle is: during work, The light sending of COB integrated optical source 211 is entered by the light inlet 2121 of light source light receiving device 212, the taper of light source light receiving device 212 Light source is carried out receiving light by face 2123, and the vacuum coating on taper surface 2123 can increase the reflectivity of light, aspherical mirror 213 (one-level eyeglass) is fixed on the light-emitting window 2122 of light source light receiving device 212, it is achieved making full use of of light.Going out of aspherical mirror 213 Angular can guarantee that its rising angle completely at the diameter range of planoconvex lens 214 (two grades of eyeglasses), it is achieved secondary goes out the abundant of light Utilize.

Owing to aspherical mirror 213 is fixed on the light-emitting window of light source light receiving device 212, therefore aspherical mirror 213 in the present embodiment To the distance of COB integrated optical source 211 be on light source light receiving device 212 set in advance；And planoconvex lens 214 and COB integrated optical source Different optical effects and size and the focal length of planoconvex lens 214 that distance between 211 realizes as required are set.

Radiating module in the present embodiment specifically includes heat-pipe radiator 221 and is arranged on above heat-pipe radiator 221 Fan 225, can also be dispelled the heat by the circular array micropore on light source light receiving device 212 cylinder body outer wall.Specific works principle For: owing to COB integrated optical source is fixed on heat-pipe radiator, heat-pipe radiator is connected by heat pipe by a large amount of vertical fin, There is bigger area of dissipation, thus the heat radiation of beneficially light source；Meanwhile, heat-pipe radiator be provided above can cover whole dissipating The fan of hot device up exhausting, can improve the heat-sinking capability of system further；Additionally, light is absorbed by light source light receiving device After, can also be dispelled the heat by the circular array micropore on light source light receiving device cylinder body outer wall.At heat-pipe radiator, fan and light Under the common effect of source light receiving device heat radiation micropore, it is achieved the heat radiation of whole system, there is preferable heat-sinking capability, can gather improving While light modulation light efficiency effect, moreover it is possible to improve the service life of light fixture.

The lamp housing of the present embodiment uses modularized design, convenient dismounting, assembling and maintenance.

LED light source in the present embodiment uses COB integrated optical source, it is possible to achieve high-power, and its stable electrical properties, sends out Light is uniform, lighting quality is high, low cost；The light path module of the present embodiment use planoconvex lens replace traditional Fresnel lens, Can effectively promote the illumination of spotlight, expand the focusing angular range of hot spot.Light efficiency module and radiating module are effectively combined, Can realize that the light efficiency of spotlight increases by more than 15%；The light path module of the present embodiment arranges light source light receiving device, on its taper surface Vacuum coating can increase the reflectivity of light, and one-level light-emitting window uses aspherical mirror, it is possible to achieve making full use of of light；Two Level light-emitting window uses planoconvex lens to can guarantee that out the effect of light, light source light receiving device, aspherical mirror and the combination of planoconvex lens three, can have Effect ensures the light efficiency of spotlight.

Radiator in the present embodiment is heat-pipe radiator, and it is connected by heat pipe by a large amount of vertical fin, adds The stable fastness of radiator is simultaneously effectively increased area of dissipation, is in mute operating state at fan and also can meet scattered Heat request, moreover it is possible to improve the service life of light fixture.

To sum up, the spotlight of the present embodiment has high-power, low cost, specular removal, easy accessibility, easy access, heat radiation Ability is good and the feature of length in service life.

The utility model in the specific implementation, can also choose the aspherical of different focal according to the needs of actual light efficiency Mirror；Also can arrange N number of middle eyeglass between aspherical mirror and planoconvex lens according to the needs of actual light efficiency, middle eyeglass can To be fixed by lens carrier, if using aspherical mirror as light source one-level light-emitting window, then planoconvex lens goes out light as N+2 level (when only aspherical mirror and planoconvex lens two-stage eyeglass on light path system, aspherical mirror is as light source one-level light-emitting window, plano-convex for mouth Mirror is as two grades of light-emitting windows).

Can also be according to the needs of actual light efficiency, the planoconvex lens of selection different-diameter size and focal length is carried out with aspherical mirror Collocation, the rising angle of aspherical mirror controls at 30 ± 2 ° according to the diameter of planoconvex lens.

Owing to aspherical mirror is fixed on the light-emitting window of light source light receiving device, therefore aspherical mirror is to the distance of COB integrated optical source It is set in advance on light source light receiving device, based on the light-emitting area of COB integrated optical source, COB integrated optical source and aspherical mirror 3 Distance controlling at 10 ± 2mm.

As shown in Figure 10, the technical parameter data of existing COB integrated optical source spotlight are as follows:

1st, the focusing angular range of spotlight is 15-30 °.

2nd, embodying from light spot illumination, the power invariability of spotlight is when about 280W, and (two grades of light-emitting windows are to projection for 8m distance Identity distance from), hot spot angle 15 °, center brightness value is 3831Lux；Hot spot angle 30 °, center brightness value is 1505Lux.

As shown in figure 11, the light path heat radiation combination system of the present embodiment is applied to the technical parameter number recording on spotlight According to as follows:

1st, the focusing angular range of spotlight is 17-40 °.

2nd, embodying from light spot illumination, the power invariability of spotlight is when about 280W, and (two grades of light-emitting windows are to projection for 8m distance Identity distance from), hot spot angle 17 °, center brightness value is 5010Lux；Hot spot angle 40 °, center brightness value is 1560Lux.

It in conjunction with Figure 10, Figure 11, and is analyzed comparison to data:

1st, the focusing angular range of spotlight of the prior art is at 15-30 °, and the present embodiment is applied to the tune of spotlight Burnt angular range is at 17-40 °, and the focusing angular range that the utility model can realize is bigger.

2nd, owing to focusing angle is less, corresponding center brightness value is higher, and identical focusing angle, if center brightness value Higher, then light efficiency is better；Spotlight of the prior art, center brightness value during focusing angle 15 ° is 3831Lux, and this reality With new application to spotlight, center brightness value during focusing angle 17 ° is 5010Lux, and bigger focusing angle can obtain on the contrary To bigger center brightness value, therefore light efficiency is more preferable.

Of the present utility model general principle, principal character and of the present utility model advantage have more than been shown and described.One's own profession Skilled person will appreciate that of industry, the utility model is not restricted to the described embodiments, described in above-described embodiment and specification Principle of the present utility model is simply described, on the premise of without departing from the utility model spirit and scope, the utility model also can Have various changes and modifications, in the range of these changes and improvements both fall within claimed the utility model.The utility model is wanted Protection domain is asked to be defined by appending claims and equivalent thereof.

Claims (10)

1. novel high-power planoconvex spotlight spotlight, it is characterised in that include: lamp housing, heat-dissipating luminous composite module, focusing structure Module, display control module and power module；

Described lamp housing includes cover module, base, drive end bearing bracket module, rear end cap module, by sliding between upper cover module and base Block guide groove is attached, and front shoe and drive end bearing bracket are passed through in the overall front end that upper cover module, slide block guide groove, base three are formed Module connects, and its rear end is connected with rear end cap module by rear fixed plate；

Heat-dissipating luminous composite module is arranged in lamp housing, including light path module and radiating module, described light path module includes LED light Source, light source light receiving device and one-level eyeglass, two grades of eyeglasses；Described LED light source is COB integrated optical source；Described one-level eyeglass is non- Spherical mirror, described two grades of eyeglasses are planoconvex lens；Described planoconvex lens, aspherical mirror, light source light receiving device, the center of COB integrated optical source Line is all on the same axis；Described light source light receiving device is the cylinder of both ends open, including light inlet, reflecting part and light-emitting window, One end of cylinder is the light-emitting window of light source light receiving device, and light-emitting window end is provided with the taper surface in recessed cylinder, the end of described taper surface Portion forms opening, is the light inlet of light source light receiving device, and the end face of light inlet is in same level with the end face of the other end of cylinder On face, described taper surface is provided with vacuum coating, constitutes the reflecting part of light source light receiving device together with taper surface, described enter light Mouth is more than light-emitting window；

Described power module includes power supply signal plug-in unit and power supply, and power supply signal plug-in unit is connected with power supply, power supply signal plug-in unit with Display control module connects.

2. novel high-power planoconvex spotlight spotlight according to claim 1, it is characterised in that

Described lamp housing also includes shading door leaf module, lamp body handle module, rear end cap handle；

Described shading door leaf module is arranged on drive end bearing bracket module front end；Described lamp body handle module by lamp body handle set lever and Fixed screw is installed module with the lamp body handle being arranged on slide block guide groove and is connected；Described rear end cap handle is arranged on rear end cover mold On block.

3. novel high-power planoconvex spotlight spotlight according to claim 1, it is characterised in that

The bottom of described base is provided with air inlet cover, and described base is additionally provided with foot pad.

4. novel high-power planoconvex spotlight spotlight according to claim 1, it is characterised in that

Described aspherical mirror is fixed on the light-emitting window of light source light receiving device by aspherical mirror pressing plate, and aspherical mirror pressing plate is received with light source Aspherical mirror silica gel buffer gasket is set between light device；

Described planoconvex lens is fixed in drive end bearing bracket module by front shoe, arranges planoconvex lens pressure between planoconvex lens and front shoe Piece.

5. novel high-power planoconvex spotlight spotlight according to claim 1, it is characterised in that

The outer wall of described light source light receiving device cylinder is provided with circular array micropore, the beneficially heat radiation of light source.

6. novel high-power planoconvex spotlight spotlight according to claim 1, it is characterised in that

Described radiating module includes radiator, and described radiator is fixed by frame for fixing heat sink and radiator support, institute Stating that light source light receiving device and frame for fixing heat sink are fixing to be connected, described COB integrated optical source is fixed on a heat sink, described aspherical Mirror is fixed on the light-emitting window of light source light receiving device；

Based on the light-emitting area of COB integrated optical source, COB integrated optical source is 10 ± 2mm with the distance of aspherical mirror.

7. novel high-power planoconvex spotlight spotlight according to claim 6, it is characterised in that

The cylinder of described light source light receiving device is positioned at one end of light inlet and connects outer, described receipts light to extending around formation light receiving device Device connects outer and is provided with fixing hole, and light receiving device is fixing with frame for fixing heat sink even by stud or the screw through fixing hole Connect.

8. novel high-power planoconvex spotlight spotlight according to claim 7, it is characterised in that

Described radiator is heat-pipe radiator, if described heat-pipe radiator is passed through by some vertically fin parallel, equally spaced Dry heat pipe connects fixing；Having the hole that can pass through heat pipe on described fin, heat pipe passes through the hole on fin, and fin is horizontal Concatenate to equidistant and fix；Described inside heat pipe fills high-efficiency heat conduction medium, and inside heat pipe is vacuum state.

9. novel high-power planoconvex spotlight spotlight according to claim 6, it is characterised in that

Described radiating module also includes the fan being arranged on the top of radiator, and described fan can cover whole radiator top；

Described fan is arranged over out windshield, described go out windshield be fixed on radiator support by connecting plate.

10. novel high-power planoconvex spotlight spotlight according to claim 1, it is characterised in that

Being additionally provided with some middle eyeglasses between described aspherical mirror and planoconvex lens, described middle eyeglass is solid by lens carrier Fixed.