CN107062011A - Laser lighting lamp - Google Patents

Abstract

The invention discloses a kind of laser lighting lamp, installation unit including luminescence unit, for fixing luminescence unit and the heat-sink unit being connected respectively with luminescence unit and installation unit, luminescence unit includes lasing light emitter, heat-sink unit includes the radiating shell and the heat-conducting piece between lasing light emitter and radiating shell for being sheathed on installation unit periphery, axis direction outgoing of the outgoing beam of luminescence unit along radiating shell, lasing light emitter is located on the side of installation unit vertical exit light beam, and heat-conducting piece is of an L-shaped structure.Using lasing light emitter as lighting source, irradiation distance and brightness of illumination are greatly improved；The radiating shell of installation unit periphery and the heat-conducting piece of the L-type structure between lasing light emitter and radiating shell are sheathed on by setting, the heat that can be produced lasing light emitter by two sides is quickly exported to radiating shell and distributed rapidly, avoid having local temperature too high, it is ensured that the stability and security of product.

Description

Laser lighting lamp

Technical field

The present invention relates to lighting technical field, and in particular to a kind of laser lighting lamp.

Background technology

With the development of semiconductor technology, LED (Light Emitting Diode, light emitting diode) light sources are because with height The advantages of effect, energy-conservation, environmental protection, low cost and long lifespan, just progressively replacing traditional incandescent lamp and electricity-saving lamp, it is logical as one kind , due to being limited by current LED light source brightness, generally there is the problem of center illumination is substantially inadequate in lighting source, The application of super brightness and long distance illumination is needed such as marine searchlighting, light of stage illumination, headlight for vehicles, Projection Display Field, LED/light source is just difficult to satisfaction and require that.

LASER Light Source has the advantages that energy concentration, irradiation distance are remote, can form the spot light of super brightness, utilize this Spot light can be designed that beam divergence angle very small laser searchlight.The beam divergence angle of laser searchlight generally 1 ° with It is interior, thus several kilometers of irradiation distance can be formed.It is high yet with LASER Light Source caloric value, it is very high to cooling requirements, once Radiating is insufficient, easily causes that local temperature is too high, and influence is normal using even burning out asking for LASER Light Source and miscellaneous part Topic.

The content of the invention

The present invention can improve illumination brightness there is provided one kind for problems of the prior art and can efficiently dissipate again Heat, and the good laser lighting lamp of safety and stability.

In order to solve the above-mentioned technical problem, the technical scheme is that：A kind of laser lighting lamp, including luminescence unit, For the heat-sink unit fixed the installation unit of the luminescence unit and be connected respectively with the luminescence unit and installation unit, The luminescence unit includes lasing light emitter, and the heat-sink unit includes being sheathed on radiating shell and the position of the installation unit periphery Heat-conducting piece between the lasing light emitter and radiating shell, the axis of the outgoing beam of the luminescence unit along the radiating shell Direction outgoing, the lasing light emitter is located on the side of the vertical outgoing beam of the installation unit, the L-shaped knot of the heat-conducting piece Structure.

Further, the luminescence unit is also included along light path located at the spectroscope at the lasing light emitter rear and reflection Optical path unit and transmitted light path unit, the reflected light path unit are located at described spectroscopical the same side, institute with the lasing light emitter Transmitted light path unit is stated positioned at spectroscopical opposite side, the laser beam that the lasing light emitter is sent is divided into after the spectroscope Two-beam, respectively the reflected beams and transmitted light beam, the reflected beams and transmitted light beam are respectively through the reflected light path list After member and transmitted light path unit outgoing beam is pooled through the spectroscope and along the axis direction outgoing of the radiating shell.

Further, the reflected light path unit includes the first focus lens group and the wavelength conversion unit being arranged in order, The reflected beams focus on the wavelength conversion unit through first focus lens group and inspire fluorescence, the fluorescence It is projected to after being collimated through first focus lens group on the spectroscope；The transmitted light path unit includes the be arranged in order Two focus lens groups and scattering unit, the transmitted light beam focus on anti-on the scattering unit through second focus lens group Penetrate and be projected to after being collimated through second focus lens group on the spectroscope.

Further, quantity >=2 of the lasing light emitter, are provided with beam shaping list between the lasing light emitter and the spectroscope Member, the beam shaping unit includes prism and speculum, and the lasing light emitter is additionally coupled to a control unit.

Further, in addition to along light path the collimator and extender unit of luminescence unit rear end, the collimator and extender unit are located at Including the concavees lens and convex lens set gradually along light path, the concavees lens and convex lens are confocal to be set, and the concavees lens are located at On the installation unit, the convex lens are located on the radiating shell.

Further, installation unit one end corresponding with the outgoing beam of the luminescence unit is fixed by locating part In on the radiating shell, the luminescence unit, the locating part and the radiating shell are coaxially disposed, the locating part Center is provided with the first light hole being adapted with the outgoing beam of the luminescence unit.

Further, the locating part is made of aluminum.

Further, the heat-conducting piece wherein while positioned between the lasing light emitter and the radiating shell, another side It is more than the second light hole of first light hole between the locating part and the radiating shell and provided with size.

Further, in addition to positioned at power supply and blower of the radiating shell away from described emergent light one end.

Further, the heat-conducting piece is made of copper product.

The laser lighting lamp that the present invention is provided, including luminescence unit, for fix the installation unit of the luminescence unit with And the heat-sink unit being connected respectively with the luminescence unit and installation unit, the luminescence unit include lasing light emitter, the radiating Unit includes being sheathed on the radiating shell of the installation unit periphery and leading between the lasing light emitter and radiating shell Warmware, the axis direction outgoing of the outgoing beam of the luminescence unit along the radiating shell, the lasing light emitter is located at the peace On a side for filling the vertical outgoing beam of unit, the heat-conducting piece is of an L-shaped structure.By installation unit to luminescence unit It is fixed, using lasing light emitter as lighting source in the luminescence unit, using the remote advantage of its energy concentration, irradiation distance, So as to obtain beam divergence angle very small illuminating lamp, irradiation distance and brightness of illumination are greatly improved；By setting radiating single Member, and set in the heat-sink unit radiating shell for being sheathed on installation unit periphery and positioned at lasing light emitter and radiating shell it Between heat-conducting piece, and heat-conducting piece is of an L-shaped structure, and the heat that can be produced lasing light emitter by two sides is quickly exported to radiation shell Body is simultaneously distributed rapidly, it is to avoid it is too high to there is local temperature, and influence is normal using even burning out lasing light emitter and miscellaneous part The problem of, it is ensured that the stability and security of product, service life is improved, use cost is reduced.

Brief description of the drawings

Fig. 1 is the structural representation of laser lighting lamp in a specific embodiment of the invention；

Fig. 2 is the light path schematic diagram of luminescence unit in a specific embodiment of the invention.

Shown in figure：10th, luminescence unit；110th, lasing light emitter；120th, spectroscope；130th, reflected light path unit；131st, first Focus lens group；132nd, wavelength conversion unit；140th, transmitted light path unit；141st, the second focus lens group；142nd, scattering unit； 20th, installation unit；30th, heat-sink unit；310th, radiating shell；320th, heat-conducting piece；321st, the second light hole；40th, collimator and extender list Member；410th, concavees lens；420th, convex lens；50th, locating part；510th, the first light hole.

Embodiment

The present invention is described in detail below in conjunction with the accompanying drawings：

As shown in figure 1, the invention provides a kind of laser lighting lamp, including it is luminescence unit 10, described luminous for fixing The installation unit 20 of unit 10 and the heat-sink unit 30 being connected respectively with the luminescence unit 10 and installation unit 20, the hair Light unit 10 includes lasing light emitter 110, and the heat-sink unit 30 includes the radiating shell 310 for being sheathed on the periphery of installation unit 20 And the heat-conducting piece 320 between the lasing light emitter 110 and radiating shell 310, the outgoing beam edge of the luminescence unit 10 The axis direction outgoing of the radiating shell 310, the lasing light emitter 110 is located at the vertical outgoing beam of the installation unit 20 Side on, the heat-conducting piece 320 is of an L-shaped structure.Specifically, luminescence unit 10 is fixed on installation unit 20, pass through laser Source 110 provides illuminating bundle, using the remote advantage of its energy concentration, irradiation distance, obtains irradiation distance far and brightness of illumination is high Laser lighting lamp, can apply to need the field of super brightness and long distance illumination, improve the suitable of laser lighting lamp The property used.But in the luminescence process of lasing light emitter 110, many heats can be also produced, heat-sink unit 30, the heat-sink unit are now set 30 include radiating shell 310 and heat-conducting piece 320, and wherein heat-conducting piece 320 is of an L-shaped structure, positioned at lasing light emitter 110 and radiating shell Between 310, the heat for being produced lasing light emitter 110 by two sides is quickly exported to radiating shell 310, and passes through radiating shell 310 distribute rapidly the heat, it is to avoid nearby local temperature is too high for lasing light emitter 110, and influence is normal sharp using even burning out The problem of light source 110 and miscellaneous part, it is ensured that the stability and security of product, service life is improved, reducing makes Use cost.

As shown in Fig. 2 the luminescence unit 10 also include along light path located at the rear of lasing light emitter 110 spectroscope 120, And reflected light path unit 130 and transmitted light path unit 140, the reflected light path unit 130 is with the lasing light emitter 110 positioned at institute The same side of spectroscope 120 is stated, the transmitted light path unit 140 is located at the opposite side of the spectroscope 120, the lasing light emitter 110 laser beams sent are divided into two-beam, respectively the reflected beams and transmitted light beam, the reflection after the spectroscope 120 Light beam and transmitted light beam after the reflected light path unit 130 and transmitted light path unit 140 through the spectroscope respectively through converging Into outgoing beam and along the axis direction outgoing of the radiating shell 310, outgoing beam is formed.Specifically, the number of lasing light emitter 110 Measuring the center illumination of the power according to output light, particularly illuminating lamp is needed to be designed, and multiple laser are set in the present embodiment Source 110, and multiple lasing light emitters 110 are connected to a control unit, provided with corresponding with each lasing light emitter 110 in the control unit Controlling switch, the opening and closing of control correspondence lasing light emitter 110, selects the number of the lasing light emitter 110 of work at present as needed when in use Amount, is selected by controlling switch, further improves degree easy to use and universal performance.Certainly, if the quantity of lasing light emitter 110 For it is multiple when, corresponding beam shaping unit need to be set, and the laser beam for multiple lasing light emitters 110 to be sent is converted into light beam Or multi beam directional light, to be projected on spectroscope 120.As shown in figure 1, lasing light emitter 110 is provided with three, it is parallel to each other, passes through Three beams directional light is formed after prism and the regulation of speculum (not shown) travel direction and shaping and is projected to spectroscope 120 On；In addition in order to ensure illuminating effect, the spectroscope 120 is set with horizontal direction in 45 degree of inclination angles, the reflected light path unit 130 The relatively described spectroscope 120 of the optical axis of optical axis and transmitted light path unit 140 it is symmetrical.It is preferred that, the reflected light path list Member 130 includes the first focus lens group 131 and the wavelength conversion unit 132 being arranged in order, and the reflected beams are through described first Focus lens group 131 focuses on the wavelength conversion unit 132 and inspires fluorescence, and the fluorescence focuses on saturating through described first Microscope group 131 is projected on the spectroscope 120 after collimating, and the fluorescence is transmitted through spectroscope 120；The transmitted light path unit 140 include the second focus lens group 141 being arranged in order and scattering unit 142, and the transmitted light beam focuses on saturating through described second After microscope group 141 focuses on the scattering unit 142 and forms the light beam of reflection and collimated through second focus lens group 141 Be projected on the spectroscope 120, the light beam of the reflection reflected through spectroscope 120 after with the fluorescence that is transmitted through spectroscope 120 Overlap as a branch of approximately parallel collimation emergent light.Specifically, being respectively equipped with the fixed lasing light emitter on the installation unit 20 110th, spectroscope 120, first focuses on microscope group 131, the focusing microscope group 141 of wavelength conversion unit 132, second and scattered color element 142 Fixture, and need to ensure that light path will not be blocked, in order to avoid influence illuminating effect.In the present embodiment, wavelength conversion unit 132 includes glimmering Photosphere, the fluorescence coating is installed on installation unit 20 by fixture.

It is preferred that, the laser lighting lamp also includes the collimator and extender unit 40 that the rear end of luminescence unit 10 is located at along light path, by In the limitation of light extraction bore, the outgoing beam from the outgoing of luminescence unit 10 is approximately parallel collimated light, but still is had certain Dispersion angle.In order to obtain the light beam that dispersion angle is smaller, collimator and extender unit can be added in the light-emitting window of luminescence unit 10 40, in the present embodiment, the collimator and extender unit 40 includes the concavees lens 410 and convex lens 420 set gradually along light path, described Concavees lens 410 and the confocal setting of convex lens 420, the concavees lens 410 are on the installation unit 20, the convex lens 420 On the radiating shell 310.The convex lens 420 of two confocal settings can certainly be used, or it is recessed using one Mirror 410 and a reflector, are designed by secondary light-distribution, can obtain the optical system of various optical field distributions.

It is preferred that, the installation unit 20 one end corresponding with the outgoing beam of the luminescence unit 10 passes through locating part 50 It is fixed on the radiating shell 310, the luminescence unit 10, the locating part 50 and the radiating shell 310 are coaxially set Put, the center of the locating part 50 is provided with the first light hole 510 being adapted with the outgoing beam of the luminescence unit 10.It is preferred that , the locating part 50 is made of aluminum, a specially aluminium sheet, and the aluminium sheet is solid by some screws with installation unit 20 It is fixed, preferably alignment pin can be set between aluminium sheet and radiating shell 310, it is ensured that luminescence unit 10 is same with radiating shell 310 Axle is set, i.e. the axis collinear of the optical axis of the emergent light of luminescence unit 10 and radiating shell 310, in case illuminating bundle is along some side To skew, it is ensured that illuminating effect and degree easy to use.

Continue referring to Fig. 1, the wherein rectangular shape on one side of the heat-conducting piece 320, positioned at the lasing light emitter 110 and described Between radiating shell 310, another side is located between the locating part 50 and the radiating shell 310 in toroidal, and edge Fully contacted with radiating shell 310, and the second light hole 321 provided with size more than first light hole 510.Specifically, The light-emitting window of the installation unit 20 is coaxially disposed with the first light hole 510 on locating part 50, and will by way of screw Installation unit 20 is fixedly connected on locating part 50, and side where the light-emitting window to ensure installation unit 20 is abundant with locating part 50 Contact, can by being thermally conducted on locating part 50 on installation unit 20, meanwhile, heat-conducting piece 320 be arranged at locating part 50 with radiating Between housing 310, and locating part 50 is screwed with radiating shell 310 so that heat-conducting piece 320, locating part 50 and dissipate Fully contacted between hot housing 310, it is preferred that covered with heat-conducting silicone grease on each contact surface, to lift heat-conducting effect, laser The heat that source 110 is produced is exported to radiating shell 310 by L-type heat-conducting piece, and heat-transfer rate is fast, improves radiating effect.It is preferred that , the heat-conducting piece 320 is made of copper product, and thermal conductivity factor is big, and good heat conduction effect is with low cost.

It is preferred that, the laser lighting lamp also includes being located at electricity of the radiating shell 310 away from described outgoing beam one end Source and fan, for being powered and further radiating to whole luminescence unit 10, improve radiating effect.

The laser lighting lamp that the present invention is provided can apply to searchlighting, light of stage illumination, headlight for vehicles, Projection Display etc. The field of super brightness and long distance illumination is needed, wherein can be in radiating when searchlighting or light of stage lighting field are used Handle is set on housing 310, in order to artificial portable or fixed, to improve degree easy to use.

In summary, the laser lighting lamp that provides of the present invention, including luminescence unit 10, for fixing the luminescence unit 10 Installation unit 20 and the heat-sink unit 30 that is connected respectively with the luminescence unit 10 and installation unit 20, the heat-sink unit 30 include being sheathed on the radiating shell 310 of the periphery of installation unit 20 and positioned at the lasing light emitter 110 and radiating shell 310 Between heat-conducting piece 320, the axis direction outgoing of the outgoing beam of the luminescence unit 10 along the radiating shell 310 is described Lasing light emitter 110 is located on the side of the vertical outgoing beam of the installation unit 20, and the heat-conducting piece 320 is of an L-shaped structure.It is logical Cross installation unit 20 luminescence unit 10 is fixed, using lasing light emitter 110 as lighting source in the luminescence unit 10, utilize Its energy is concentrated, the remote advantage of irradiation distance, so as to obtain beam divergence angle very small illuminating lamp, greatly improve irradiation away from From and brightness of illumination；The periphery of installation unit 20 is sheathed on by setting heat-sink unit 30, and being set in the heat-sink unit 30 Radiating shell 310 and the heat-conducting piece 320 between lasing light emitter 110 and radiating shell 310, the wherein L-shaped knot of heat-conducting piece 320 Structure, between lasing light emitter 110 and radiating shell 310, the heat for being produced lasing light emitter 110 by two sides is quickly exported to scattered Hot housing 310 is simultaneously distributed rapidly by radiating shell 310, it is to avoid it is too high to there is local temperature, and influence is normal using even The problem of burning out lasing light emitter 110 and miscellaneous part, it is ensured that the stability and security of product, improves service life, drop Low use cost.

Although embodiments of the present invention are illustrated in specification, these embodiments are intended only as prompting, It should not limit protection scope of the present invention.It is equal that various omission, substitution, and alteration are carried out without departing from the spirit and scope of the present invention Should be comprising within the scope of the present invention.

Claims (10)

1. a kind of laser lighting lamp, it is characterised in that including luminescence unit (10), the peace for fixing the luminescence unit (10) Unit (20) and the heat-sink unit (30) being connected respectively with the luminescence unit (10) and installation unit (20) are filled, it is described luminous Unit (10) includes lasing light emitter (110), and the heat-sink unit (30) includes being sheathed on the radiating of the installation unit (20) periphery Housing (310) and the heat-conducting piece (320) between the lasing light emitter (110) and radiating shell (310), the luminescence unit (10) axis direction outgoing of the outgoing beam along the radiating shell (310), the lasing light emitter (110) is installed on the installation On the side of the vertical outgoing beam of unit (20), the heat-conducting piece (320) is of an L-shaped structure.

2. laser lighting lamp according to claim 1, it is characterised in that the luminescence unit (10) also includes setting along light path Spectroscope (120) and reflected light path unit (130) and transmitted light path unit (140) in the lasing light emitter (110) rear, The reflected light path unit (130) is located at the same side of the spectroscope (120), the transmitted light with the lasing light emitter (110) Road unit (140) is located at the opposite side of the spectroscope (120), and the laser beam that the lasing light emitter (110) sends is through the light splitting It is divided into two-beam, respectively the reflected beams and transmitted light beam after mirror (120), the reflected beams and transmitted light beam are respectively through institute State reflected light path unit (130) and transmitted light path unit (140) and pool outgoing beam and along institute by the spectroscope (120) State the axis direction outgoing of radiating shell (310).

3. laser lighting lamp according to claim 2, it is characterised in that the reflected light path unit (130) is included successively The first focus lens group (131) and wavelength conversion unit (132) of arrangement, the reflected beams are through first focus lens group (131) focus on the wavelength conversion unit (132) and inspire fluorescence, the fluorescence is through first focus lens group (131) it is projected to after collimating on the spectroscope (120)；The transmitted light path unit (140) include be arranged in order second gather Focus lens group (141) and scattering unit (142), the transmitted light beam focus on described through second focus lens group (141) It is projected to after reflecting and collimated through second focus lens group (141) on scattering unit (142) on the spectroscope (120).

4. laser lighting lamp according to claim 2, it is characterised in that quantity >=2 of the lasing light emitter (110), described Beam shaping unit is provided between lasing light emitter (110) and the spectroscope (120), the beam shaping unit includes prism and anti- Mirror is penetrated, the lasing light emitter (110) is additionally coupled to a control unit.

5. laser lighting lamp according to claim 1, it is characterised in that also including being located at along light path after luminescence unit (10) The collimator and extender unit (40) at end, the collimator and extender unit (40) includes the concavees lens (410) set gradually along light path and convex Lens (420), the concavees lens (410) and the confocal setting of convex lens (420), the concavees lens (410) install single located at described On first (20), the convex lens (420) are located on the radiating shell (310).

6. laser lighting lamp according to claim 1, it is characterised in that the installation unit (20) and the luminescence unit (10) corresponding one end of outgoing beam is fixed on the radiating shell (310) by locating part (50), the luminescence unit (10), the locating part (50) and the radiating shell (310) are coaxially disposed, and the center of the locating part (50) is provided with and institute State the first light hole (510) that the outgoing beam of luminescence unit (10) is adapted.

7. laser lighting lamp according to claim 6, it is characterised in that the locating part (50) is made of aluminum.

8. laser lighting lamp according to claim 6, it is characterised in that the heat-conducting piece (320) wherein while being located at Between the lasing light emitter (110) and the radiating shell (310), another side is located at the locating part (50) and the radiating shell (310) it is more than the second light hole (321) of first light hole (510) between and provided with size.

9. laser lighting lamp according to claim 1, it is characterised in that also including remote positioned at the radiating shell (310) From the power supply and blower of described emergent light one end.

10. laser lighting lamp according to claim 1, it is characterised in that the heat-conducting piece (320) uses copper product system Into.