CN104763935A - Fountain lamp - Google Patents

Abstract

The invention discloses a fountain lamp which comprises a lamp panel, lamp holders, LED lamps and wires. The lamp panel comprises an attaching layer, a base material layer, a radiating layer and a reflecting layer which are stacked in sequence. An installation groove is formed in the side, away from the base material layer, of the radiating layer, the reflecting layer is provided with an installation hole communication with the installation groove, and the base material layer is provided with radiating holes. Part of the lamp holders are fixedly arranged in the installation groove, and the other part of the lamp holders are arranged in the installation hole. The LED lamps are arranged in the lamp holders, and the wires are arranged in the radiating layer and are electrically connected with the lamp holders. The lamp panel of the fountain lamp can obtain the good radiating performance and the good deformable capability through the attaching layer, the base material layer, the radiating layer and the reflecting layer which are sequentially stacked, when the lamp holders, when the lamp holders, the LED lamps and the wires are arranged on the lamp panel, the lamp holders, the LED lamps and the wires can be better installed on different installation faces in a matched mode, installation and maintenance are simple, and popularization is also high.

Description

Fountain lamp

Technical field

The present invention relates to a kind of light fixture, particularly relate to a kind of fountain lamp.

Background technology

At present, fountain lamp mainly comprises lamp plate and is arranged on the LED on lamp plate, and wherein, lamp plate is for dispelling the heat and providing the installation position needed for LED.The material of lamp plate adopts plastics and metal usually, the more difficult change of shape after causing lamp plate to be shaped.

Along with the raising of science and technology constantly progressive and people's aesthetic level, the installed surface of fountain lamp, the i.e. binding face of lamp plate and installation site, be no longer confined to traditional planar structure, such as, installed surface can be designed to arc surface, right-angle surface, concave surface, convex surface or other irregular curved surfaces.So, the spatial arrangement of LED can be made to present with special stereoeffect, thus build special illuminating effect and visual effect.

For the problems referred to above, be generally first the lamp plate of fountain lamp is separated into some less modules, then these model calling on a predetermined position, finally, then get up by corresponding installation respectively.Because the globality of this type of fountain lamp is poor, this can cause globality poor, and heat dispersion is poor, the problem that installation and maintenance are more loaded down with trivial details.

In addition, also have a class fountain lamp to be according to specific mounting condition, be prepared into the specific lamp plate of integral type in advance by techniques such as injection moulding, casting or die casting, finally, then this lamp plate is arranged on corresponding position.Because this type of fountain lamp specificity is too strong, this can cause universality poor, and die manufacturing cost is high, the problem of size more difficult adjustment after having deviation.

Such as, Chinese patent 200910111522.8 discloses a kind of transformable lamp, it comprises one first case and one second case, this first case is fixed with one first rotating unit, this second case is fixed with one second rotating unit, this first rotating unit can rotate relative to this second rotating unit, and this first case rotates relative to this second case with the cooperation of this second rotating unit by this first rotating unit.Compared to the prior art, transformable lamp of the present invention is by the cooperation of the first rotating unit between the first case and the second case and the second rotating unit rotation relation each other, the deformable object realizing light fixture is reached with comparatively simple structure, make light fixture of the present invention be applicable to multiple occasion, meet the individual demand of people.

And for example, Chinese patent 201210586153.X discloses a kind of light fixture, it comprises substrate, multiple light emitting diode and lamp housing, lamp housing offers light-emitting window, substrate is made up of flexible material, the periphery of substrate is embedded in lamp housing periphery, substrate comprises light-emitting area, light-emitting area is arranged towards light-emitting window, multiple light-emitting diode arrangement is in light-emitting area, when substrate is to direction flexural deformation away from light-emitting window, light-emitting area is concave surface, multiple light emitting diode is spot mode arrangement, when substrate is to when the direction flexural deformation of light-emitting window, light-emitting area is convex surface, multiple light emitting diode is flood mode arrangement.Light fixture of the present invention is by selecting flexible material by the substrate of diode installed, under external force can be raised or sunken by light-emitting area, so that floodlight or spot condition can be formed, a lamp for user is dual-purpose provides possibility, also save a large amount of use costs, use more convenient lighter.Simultaneously without the need to carrying two light fixtures, use procedure is more laborsaving.

And for example, Chinese patent 200420117918.6 discloses a kind of light fixture with shape changing lamp base, specifically refers to a kind of lamp stand angle adjustment with light fixture, produces lamp socket composition variation in moulding, presents the light fixture of different visual effect; Described light fixture contains and utilizes a pivot element eccentric pivots to connect first and second lamp socket, makes the lamp socket of its phase fit; One utilizes cover axle unit to be combined in the lamp stand of the second lamp socket; And the positioning unit of adjustment angle, its contain one be arranged on the second lamp socket support shell fragment, and correspondence is molded over the resistance wall in the first lamp socket; The angle adjustment of lamp stand is utilized to operate, synchronous driving second lamp socket with the pivot element of bias for axle center, outwards stretch the composition moulding changed with the first lamp socket, new lamp socket moulding visual sense can be obtained, and by positioning unit between the second lamp socket and the first lamp socket, the elasticity location assistance force of angulation adjustment.

And for example, Chinese patent 201310024855.3 discloses a kind of scalable novel form changeable light fixture, comprise bar group part A, drive part B, power input portion C, bar group part A is connected with the revolute pair that strut (8) is formed by bar (6) with drive part B.Bar (5) on bar group part A bar group (IV), bar (6) are connected with bar (7) respectively, the parallelogram formed is identical with upper all the other parallelogram shape formed of bar group (IV), bar (7) is in vertical direction with an angle, and the profile of whole light fixture adjusts by this angle.Drive part B is connected with shaft coupling (14) by leading screw (13) with power input portion C.The bar group part A of light fixture is a space circular arc curved surface, and this curved surface constitutes the main body of light fixture, and the bulb of light fixture can be placed on each rod member.The convergent-divergent distortion of light fixture is divided into contraction, launches two states, shrink and the degree launched by the time controling of drive motors rotating, the monnolithic case of light fixture is imitative fresh flower shape.

But still there is the problem of heat dispersion difference, deformability difference in light fixture disclosed in above-mentioned patent.

Summary of the invention

Based on this, be necessary to provide a kind of perfect heat-dissipating and the strong fountain lamp of deformability.

A kind of fountain lamp, comprising:

Lamp plate, described lamp plate comprise superpose setting successively laminating layer, substrate layer, heat dissipating layer and reflecting layer, described heat dissipating layer is provided with mounting groove away from the side of described substrate layer, and described reflecting layer is provided with the installing hole be communicated with described mounting groove;

Described substrate layer offers louvre;

Lamp socket, a part for described lamp socket is fixedly installed in described mounting groove, and another part of described lamp socket is arranged in described installing hole;

LED, described LED is arranged at described lamp socket; And

Wire, described wire is arranged in described heat dissipating layer, and is electrically connected with described lamp socket.

Wherein in an embodiment, the two ends of described louvre are through with the dual-side of described substrate layer respectively.

Wherein in an embodiment, multiple described louvre is set, and is provided with interval between multiple described louvre.

Wherein in an embodiment, multiple described louvre be arranged in parallel.

Wherein in an embodiment, multiple described louvre is set, and multiple described louvre is, and net distribution is in described substrate layer.

Wherein in an embodiment, multiple described louvre is vertically arranged.

Wherein in an embodiment, described louvre is set to prismatic structure.

Wherein in an embodiment, described louvre is set to semicircular structure.

By superposing the laminating layer of setting, substrate layer, heat dissipating layer and reflecting layer successively on the lamp plate of above-mentioned fountain lamp, good heat dispersion and deformability can be obtained, when lamp socket, LED and wire are arranged on lamp socket, can better Matching installation on different installed surfaces, installation and maintenance are comparatively simple, and universality is also stronger.

Accompanying drawing explanation

Fig. 1 is the structural representation of the fountain lamp of an embodiment of the present invention;

Fig. 2 is the structural representation of the fountain lamp of another embodiment of the present invention;

Fig. 3 is the structural representation of the fountain lamp of another embodiment of the present invention;

Fig. 4 is the structural representation of the fountain lamp of another embodiment of the present invention;

Fig. 5 is the structural representation of the fountain lamp of another embodiment of the present invention;

Fig. 6 is the structural representation of the fountain lamp of another embodiment of the present invention;

Fig. 7 is the structural representation of the fountain lamp of another embodiment of the present invention;

Fig. 8 is the structural representation of the fountain lamp of another embodiment of the present invention;

Fig. 9 is the structural representation of the fountain lamp of another embodiment of the present invention;

Figure 10 is the structural representation of the fountain lamp of another embodiment of the present invention;

Figure 11 is the structural representation of the fountain lamp of another embodiment of the present invention.

Detailed description of the invention

For the ease of understanding the present invention, below with reference to relevant drawings, the present invention is described more fully.Better embodiment of the present invention is given in accompanying drawing.But the present invention can realize in many different forms, is not limited to embodiment described herein.On the contrary, provide the object of these embodiments be make to disclosure of the present invention understand more thorough comprehensively.

It should be noted that, when element is called as " being fixed on " another element, directly can there is element placed in the middle in it on another element or also.When an element is considered to " connection " another element, it can be directly connected to another element or may there is centering elements simultaneously.Term as used herein " vertical ", " level ", "left", "right" and similar statement just for illustrative purposes, do not represent it is unique embodiment.

Unless otherwise defined, all technology used herein and scientific terminology are identical with belonging to the implication that those skilled in the art of the present invention understand usually.The object of term used in the description of the invention herein just in order to describe concrete embodiment, is not intended to be restriction the present invention.Term as used herein " and/or " comprise arbitrary and all combinations of one or more relevant Listed Items.

Such as, a kind of fountain lamp, comprising: lamp plate, described lamp plate comprise superpose setting successively laminating layer, substrate layer, heat dissipating layer and reflecting layer, described heat dissipating layer is provided with mounting groove away from the side of described substrate layer, and described reflecting layer is provided with the installing hole be communicated with described mounting groove; Described substrate layer offers louvre; Lamp socket, a part for described lamp socket is fixedly installed in described mounting groove, and another part of described lamp socket is arranged in described installing hole; LED, described LED is arranged at described lamp socket; And wire, described wire is arranged in described heat dissipating layer, and is electrically connected with described lamp socket.Such as, described lamp plate for described fountain lamp is fixedly installed in fountain installation position, such as, is fixedly installed on fountain installation position by being spirally connected.And for example, described fountain lamp also arranges transparent waterproof layer, and it is covered in LED and lamp socket, reflecting layer appearance, and such as, described transparent waterproof layer is an overlay.

In order to understand above-mentioned fountain lamp further, another example is, a kind of fountain lamp, and it comprises the fountain lamp described in above-mentioned any embodiment.

Such as, refer to Fig. 1, it is the structural representation of the fountain lamp 10 of an embodiment of the present invention.

Fountain lamp 10 comprises: lamp plate 100, lamp socket 200, LED 300 and wire 400.Lamp socket 200 and wire 400 are all arranged on lamp plate 100, and LED 300 is arranged on lamp socket 200.

Refer to Fig. 1, lamp plate 100 comprise superpose setting successively laminating layer 110, substrate layer 120, heat dissipating layer 130 and reflecting layer 140, that is, substrate layer 120 is attached on laminating layer 110, heat dissipating layer 130 is attached at the side of substrate layer 120 away from laminating layer 110, and reflecting layer 140 is attached at the side of heat dissipating layer 130 away from substrate layer 120.Laminating layer 110 is arranged at installed surface for attaching, the binding face of described installed surface and lamp plate 100 and installation site.Substrate layer 120 is used as support frame, its better mechanical property.Heat dissipating layer 130 is for playing thermolysis, and the heat that LED luminescence produces can fall apart by rapidly.The light that reflecting layer 140 can send LED 300 reflects and/or scattering, thus improves the utilization rate of LED 300 light better, meanwhile, also can increase the diffusion angle of LED light.

Refer to Fig. 1, heat dissipating layer 130 is provided with mounting groove 131 away from the side of described substrate layer 120, and reflecting layer 140 is provided with the installing hole 141 be communicated with mounting groove 131.Mounting groove 131 and installing hole 141 are for installing and fixed lamp-socket 200, and to make lamp socket 200 combine with lamp plate 100 better, meanwhile, the carrying out also being conducive to LED 300 is dispelled the heat.

Refer to Fig. 1, a part for lamp socket 200 is fixedly installed in mounting groove 131, and another part of lamp socket 200 is arranged in installing hole 141, and so, lamp socket 200 can be fixedly installed on lamp plate 100 better.Such as, in a practical situation, lamp socket 200 can be concordant away from a side of heat dissipating layer 130 with reflecting layer 140 with the junction of LED 300, so, can dispel the heat better, meanwhile, also be beneficial to the light that 140 pairs, reflecting layer LED 300 sends and reflect and/or scattering.

Refer to Fig. 1, LED 300 is arranged at lamp socket 200.LED 300 is electrically connected with lamp socket 200, and lamp socket 200 provides electric energy for giving the normal work of LED 300.Such as, LED 300 by being spirally connected, the connected mode such as grafting or welding is connected with lamp socket 200.

In order to improve the brightness of described fountain lamp, to optimize the illuminating effect of described fountain lamp, such as, described LED arranges several, the rectangular array arrangement of LED described in several; And for example, the array arrangement twist of LED described in several, is namely similar to mosquito repellent incense structure; And for example, LED described in several is the arrangement of multiple circular array, i.e. concentric circles, or is interpreted as the structure that the round chain of rings of multiple different-diameter is nested, and so, still can have good illuminating effect, and brightness is also higher after described fountain lamp bending is installed.

Refer to Fig. 1, wire 400 is arranged in heat dissipating layer 130, and is electrically connected with lamp socket 200.Such as, wire 400, by being connected with the power supply of outside, is powered to lamp socket 200, and then provides electric energy to the normal work of LED 300.Such as, before described heat dissipating layer solidification, the described wire of installation is implanted.

Need lamp plate to be separated into some less modules to solve traditional fountain lamp, or need the specific lamp plate being prepared into integral type in advance by techniques such as injection moulding, casting or die casting, the globality brought is poor, heat dispersion is poor, installation and maintenance are more loaded down with trivial details, and specificity is too strong, and universality is poor, die manufacturing cost is high, the problem of size more difficult adjustment after having deviation.Such as, the lamp plate of the described fountain lamp of an embodiment of the present invention, it has, and globality is comparatively strong, good heat dispersion performance, installation and maintenance are more convenient, universality is comparatively strong, size more easily regulates after having deviation, deformability is strong and bent advantage.

An example is, the described fountain lamp of an embodiment of the present invention, and wherein, the described laminating layer of described lamp plate comprises each component of following mass parts:

Polyolefin 5 parts ~ 12 parts, Merlon 8 parts ~ 15 parts, PLA 20 parts ~ 35 parts, PETG 25 parts ~ 38 parts, 10 parts ~ 15 parts, organic solid particle, polystyrene hollow-particle 12 parts ~ 30 parts, polyacrylic acid hollow-particle 2 parts ~ 3 parts, polystyrene hollow-particle 1.5 parts ~ 4 parts, urethane acrylate hollow-particle 1 part ~ 1.5 parts, epoxy acrylate hollow-particle 5 parts ~ 8 parts, polyester acrylate hollow-particle 0.5 part ~ 1 part, polyether acrylate hollow-particle 0.5 part ~ 1 part and 0.5 part ~ 1 part, epoxy resin hollow particle.

Preferably, organic solid particle comprises at least one in the solid particle of polystyrene, the solid particle of polyacrylic acid, the solid particle of polystyrene, the solid particle of urethane acrylate, the solid particle of epoxy acrylate, the solid particle of polyester acrylate, the solid particle of polyether acrylate and the solid particle of epoxy resin.

Due to described fountain lamp when mounted, described laminating layer needs directly fit with installed surface, such as, described laminating layer needs and there is arc surface, right-angle surface, concave surface, convex surface, or the installed surface laminating of other irregular curved-surface structures, therefore, described laminating layer can be squeezed and folding s tress, by adding the good hollow-particle of elasticity, such as, and polystyrene hollow-particle, polyacrylic acid hollow-particle, polystyrene hollow-particle, urethane acrylate hollow-particle, epoxy acrylate hollow-particle, polyester acrylate hollow-particle, polyether acrylate hollow-particle and epoxy resin hollow particle is stressed that reversible deformation occurs, the extruding force that described laminating layer is subject to can be partially absorbed, thus suppleness and the firmness of described laminating layer can be strengthened, and then improve the bent of described laminating layer and deformability, so, when described laminating layer is arranged on, there is arc surface, right-angle surface, concave surface, convex surface, or during the installed surface of other irregular curved-surface structures, described laminating layer can fit tightly with this installed surface better, and also not easy fracture after bending extruding.When described laminating layer is separated with described installed surface, when namely discharging the extruding and folding s tress that described laminating layer is subject to, what occur due to described laminating layer is reversible deformation, therefore, described laminating layer will be returned to original state, be convenient to install better, universality is comparatively strong, and installation and maintenance are also more convenient next time.In addition, when described laminating layer fits to installed surface, when there is size problem devious, when namely actual installation site is not inconsistent with the installation site of presetting, there is based on described laminating layer the characteristic of reversible deformation, also can more easily adjust installation site.

Above-mentioned laminating layer carries out coordinated by adding polystyrene hollow-particle 12 parts ~ 30 parts, polyacrylic acid hollow-particle 2 parts ~ 3 parts, polystyrene hollow-particle 1.5 parts ~ 4 parts, urethane acrylate hollow-particle 1 part ~ 1.5 parts, epoxy acrylate hollow-particle 5 parts ~ 8 parts, polyester acrylate hollow-particle 0.5 part ~ 1 part, polyether acrylate hollow-particle 0.5 part ~ 1 part and 0.5 part ~ 1 part, epoxy resin hollow particle, and described laminating layer can be made to obtain preferably elasticity and firmness.In addition, by adding 10 parts ~ 15 parts, organic solid particle, described laminating layer can be made again to obtain preferably elasticity, better mechanical property.

Above-mentioned laminating layer is by adding polyolefin 5 parts ~ 12 parts, Merlon 8 parts ~ 15 parts, PLA 20 parts ~ 35 parts, PETG 25 parts ~ 38 parts, described laminating layer can be made to obtain preferably mechanical performance and puncture-resistant performance, and can better with organic solid particle, polystyrene hollow-particle, polyacrylic acid hollow-particle, polystyrene hollow-particle, urethane acrylate hollow-particle, epoxy acrylate hollow-particle, polyester acrylate hollow-particle, polyether acrylate hollow-particle and epoxy resin hollow particle combine.

Preferably, the described fountain lamp of an embodiment of the present invention, wherein, the described laminating layer of described lamp plate comprises each component of following mass parts:

Polyolefin 6 parts ~ 10 parts, Merlon 10 parts ~ 12 parts, PLA 25 parts ~ 30 parts, PETG 30 parts ~ 35 parts, 12 parts ~ 14 parts, organic solid particle, polystyrene hollow-particle 15 parts ~ 25 parts, polyacrylic acid hollow-particle 2.5 parts ~ 3 parts, polystyrene hollow-particle 2 parts ~ 3.5 parts, urethane acrylate hollow-particle 1.2 parts ~ 1.5 parts, epoxy acrylate hollow-particle 6 parts ~ 7 parts, polyester acrylate hollow-particle 0.5 part ~ 0.8 part, polyether acrylate hollow-particle 0.5 part ~ 0.8 part and 0.5 part ~ 0.8 part, epoxy resin hollow particle.

Preferably, the described fountain lamp of an embodiment of the present invention, wherein, the described laminating layer of described lamp plate comprises each component of following mass parts:

Polyolefin 8.5 parts, Merlon 12 parts, PLA 30 parts, PETG 32 parts, organic 12.5 parts, solid particle, polystyrene hollow-particle 20 parts, polyacrylic acid hollow-particle 2.5 parts, polystyrene hollow-particle 3 parts, urethane acrylate hollow-particle 1.5 parts, epoxy acrylate hollow-particle 6.5 parts, polyester acrylate hollow-particle 0.8 part, polyether acrylate hollow-particle 0.8 part and 0.8 part, epoxy resin hollow particle.

In order to make polystyrene hollow-particle, polyacrylic acid hollow-particle, polystyrene hollow-particle, urethane acrylate hollow-particle, epoxy acrylate hollow-particle, polyester acrylate hollow-particle, polyether acrylate hollow-particle and epoxy resin hollow particle have preferably elasticity, to improve the bent of described laminating layer or deformability further, such as, polystyrene hollow-particle, polyacrylic acid hollow-particle, polystyrene hollow-particle, urethane acrylate hollow-particle, epoxy acrylate hollow-particle, polyester acrylate hollow-particle, the external diameter of polyether acrylate hollow-particle and epoxy resin hollow particle is 0.05 μm ~ 10 μm, internal diameter is 0.02 μm ~ 2.5 μm, and for example, the external diameter of polystyrene hollow-particle, polyacrylic acid hollow-particle, polystyrene hollow-particle, urethane acrylate hollow-particle, epoxy acrylate hollow-particle, polyester acrylate hollow-particle, polyether acrylate hollow-particle and epoxy resin hollow particle is 0.03 μm ~ 5 μm, and internal diameter is 0.01 μm ~ 1.5 μm, and for example, polystyrene hollow-particle, polyacrylic acid hollow-particle, polystyrene hollow-particle, urethane acrylate hollow-particle, epoxy acrylate hollow-particle, polyester acrylate hollow-particle, the external diameter of polyether acrylate hollow-particle and epoxy resin hollow particle is 2.5 μm, internal diameter is 1.5 μm, so, make polystyrene hollow-particle, polyacrylic acid hollow-particle, polystyrene hollow-particle, urethane acrylate hollow-particle, epoxy acrylate hollow-particle, polyester acrylate hollow-particle, polyether acrylate hollow-particle and epoxy resin hollow particle have preferably elasticity, to improve the bent of described laminating layer or deformability further.

In order to make described laminating layer, there is preferably shock-absorbing capacity and pliability; fit better to make described laminating layer and described installed surface; and the extruding that can slow down described installed surface; thus protect described installed surface; such as, the described fountain lamp of an embodiment of the present invention, wherein; the preparation method of the described laminating layer of described lamp plate, comprises the steps:

Step S110: at 260 DEG C ~ 350 DEG C, by polyolefin 5 parts ~ 12 parts, Merlon 8 parts ~ 15 parts, PLA 20 parts ~ 35 parts, PETG 25 parts ~ 38 parts and liquid carbon dioxide melting mixing, described liquid carbon dioxide is heated releasing bubble, obtains expanding foam solution.

Step S120: while hot 10 parts ~ 15 parts, organic solid particle, polystyrene hollow-particle 12 parts ~ 30 parts, polyacrylic acid hollow-particle 2 parts ~ 3 parts, polystyrene hollow-particle 1.5 parts ~ 4 parts, urethane acrylate hollow-particle 1 part ~ 1.5 parts, epoxy acrylate hollow-particle 5 parts ~ 8 parts, polyester acrylate hollow-particle 0.5 part ~ 1 part, polyether acrylate hollow-particle 0.5 part ~ 1 part and 0.5 part ~ 1 part, epoxy resin hollow particle are added in described expanding foam solution, obtain mixture after mixing.

Step S130: cooled by described mixture, then carries out biaxial tension, obtains described laminating layer.

Bubble can be introduced in described laminating layer by above-mentioned steps S110 to step S130; so; described laminating layer can be made to have preferably shock-absorbing capacity and pliability; fit better to make described laminating layer and installed surface; and the extruding that can slow down described installed surface, thus protect described installed surface.

Need lamp plate to be separated into some less modules to solve traditional fountain lamp, or need the specific lamp plate being prepared into integral type in advance by techniques such as injection moulding, casting or die casting, the globality brought is poor, heat dispersion is poor, installation and maintenance are more loaded down with trivial details, and specificity is too strong, and universality is poor, die manufacturing cost is high, the problem of size more difficult adjustment after having deviation.Such as, the lamp plate of the described fountain lamp of an embodiment of the present invention, it has, and globality is comparatively strong, good heat dispersion performance, installation and maintenance are more convenient, universality is comparatively strong, size more easily regulates after having deviation, deformability is strong and bent advantage.

An example is, the described fountain lamp of an embodiment of the present invention, and wherein, the described substrate layer of described lamp plate comprises each component of following mass parts:

Ethylene vinyl acetate cross-linking agent 5 parts ~ 8 parts, ethylene vinyl acetate 6 parts ~ 10 parts, polyolefin 10 parts ~ 12 parts, Merlon 9 parts ~ 11 parts, PLA 45 parts ~ 55 parts, PETG 12 parts ~ 15 parts, organic siliconresin 1 part ~ 1.5 parts, methyl-silicone oil 1 part ~ 1.5 parts, two methyl-silicone oil 1 part ~ 1.5 parts, ethyl silicon oil 1 part ~ 1.5 parts, phenyl silicone oil 1 part ~ 1.5 parts, MethylethoxylsiliconFluid Fluid 1 part ~ 1.5 parts, methyl vinyl silicon oil 1 part ~ 1.5 parts, heat filling 15 parts ~ 20 parts and 0.5 part ~ 1 part, curing agent, wherein, described heat filling comprises aluminium powder, zinc powder, copper powder, aluminium oxide, aluminium nitride, boron nitride, carborundum, in boron nitride, described needle-like material is ZnOw, potassium titanate crystal whisker, silicon nitride crystal whisker, a kind of or several arbitrarily mixture in β-SiC whisker.

First, above-mentioned substrate layer by adding ethylene vinyl acetate cross-linking agent 5 parts ~ 8 parts, ethylene vinyl acetate 6 parts ~ 10 parts, polyolefin 10 parts ~ 12 parts, Merlon 9 parts ~ 11 parts, PLA 45 parts ~ 55 parts, PETG 12 parts ~ 15 parts can make described substrate layer have preferably mechanical performance, preferably suppleness and firmness, preferably resistance to fracture property after bending, puncture-resistant performance and decay resistance, so, described substrate layer can play skeletal support effect in the overall structure in described lamp plate.

Secondly, by adding organic siliconresin 1 part ~ 1.5 parts, methyl-silicone oil 1 part ~ 1.5 parts, two methyl-silicone oil 1 part ~ 1.5 parts, ethyl silicon oil 1 part ~ 1.5 parts, phenyl silicone oil 1 part ~ 1.5 parts, MethylethoxylsiliconFluid Fluid 1 part ~ 1.5 parts and methyl vinyl silicon oil 1 part ~ 1.5 parts, greatly can strengthen the flexibility of described substrate layer, and then improve the bent of described laminating layer and deformability.So, when described laminating layer is arranged on the described installed surface with arc surface, right-angle surface, concave surface, convex surface or other irregular curved-surface structures, when causing described substrate layer also to bend, not easy fracture after described substrate layer bending extruding.When discharging the extruding that is subject to of described substrate layer and folding s tress, what occur due to described substrate layer is reversible deformation, therefore, described substrate layer synchronously will be returned to original state with described laminating layer, be convenient to install better, universality is comparatively strong, and installation and maintenance are also more convenient next time.In addition, when described laminating layer fits to installed surface, when there is size problem devious, namely when actual installation site is not inconsistent with the installation site of presetting, there is based on described substrate layer the characteristic of reversible deformation, described substrate layer can be followed described laminating layer and is synchronously returned to original state, thus can more easily adjust installation site.

Finally, above-mentioned substrate layer is by adding heat filling 15 parts ~ 20 parts, but some thermal conducting path can be formed in the rubber of script heat conductivility extreme difference better mechanical property-silica gel polymerization system, thus the heat that described heat dissipating layer transmission can be come carries out heat conduction and heat radiation, alleviate the thermic load of described heat dissipating layer, the heat dispersion of the described fountain lamp of further raising, so achieve that described substrate layer can have good heat conductivity simultaneously, bent and deformability is strong, firmness is better, resistance to fracture and the good advantage of softness after bending.

Preferably, the described fountain lamp of an embodiment of the present invention, wherein, the described substrate layer of described lamp plate comprises each component of following mass parts:

Ethylene vinyl acetate cross-linking agent 5.5 parts ~ 6.5 parts, ethylene vinyl acetate 8 parts ~ 10 parts, polyolefin 10 parts ~ 10.5 parts, Merlon 9 parts ~ 10 parts, PLA 45 parts ~ 50 parts, PETG 12 parts ~ 13 parts, organic siliconresin 1 part ~ 1.5 parts, methyl-silicone oil 1 part ~ 1.5 parts, two methyl-silicone oil 1 part ~ 1.5 parts, ethyl silicon oil 1 part ~ 1.5 parts, phenyl silicone oil 1 part ~ 1.5 parts, MethylethoxylsiliconFluid Fluid 1 part ~ 1.5 parts, methyl vinyl silicon oil 1 part ~ 1.5 parts, heat filling 18.5 parts ~ 20 parts and 0.5 part ~ 1 part, curing agent, wherein, described heat filling comprises aluminium powder, zinc powder, copper powder, aluminium oxide, aluminium nitride, boron nitride, carborundum, in boron nitride, described needle-like material is ZnOw, potassium titanate crystal whisker, silicon nitride crystal whisker, a kind of or several arbitrarily mixture in β-SiC whisker.

Preferably, the described fountain lamp of an embodiment of the present invention, wherein, the described substrate layer of described lamp plate comprises each component of following mass parts:

Ethylene vinyl acetate cross-linking agent 6.5 parts, ethylene vinyl acetate 8.5 parts, polyolefin 10.5 parts, Merlon 9.5 parts, PLA 50 parts, PETG 12.5 parts, organic siliconresin 1.5 parts, methyl-silicone oil 1.5 parts, two methyl-silicone oil 1.5 parts, ethyl silicon oil 1.5 parts, phenyl silicone oil 1.5 parts, MethylethoxylsiliconFluid Fluid 1.5 parts, methyl vinyl silicon oil 1.5 parts, heat filling 20 parts and 1 part, curing agent, wherein, described heat filling is aluminium powder, zinc powder, copper powder, aluminium oxide, aluminium nitride, boron nitride, carborundum, in boron nitride, described needle-like material comprises ZnOw, potassium titanate crystal whisker, silicon nitride crystal whisker, a kind of or several arbitrarily mixture in β-SiC whisker.

Need lamp plate to be separated into some less modules to solve traditional fountain lamp, or need the specific lamp plate being prepared into integral type in advance by techniques such as injection moulding, casting or die casting, the globality brought is poor, heat dispersion is poor, installation and maintenance are more loaded down with trivial details, and specificity is too strong, and universality is poor, die manufacturing cost is high, the problem of size more difficult adjustment after having deviation.Such as, the lamp plate of the described fountain lamp of an embodiment of the present invention, it has, and globality is comparatively strong, good heat dispersion performance, installation and maintenance are more convenient, universality is comparatively strong, size more easily regulates after having deviation, deformability is strong and bent advantage.

An example is, the described fountain lamp of an embodiment of the present invention, and wherein, the described heat dissipating layer of described lamp plate comprises each component of following mass parts:

Graphene nano particle 0.5 part ~ 1.5 parts, CNT 0.5 part ~ 1.5 parts, nano-metal particle 0.3 part ~ 0.8 part, polyolefin 20 parts ~ 25 parts, Merlon 15 parts ~ 20 parts, PLA 10 parts ~ 15 parts and PETG 10 parts ~ 15 parts, acrylic resin 5 parts ~ 10 parts, polyether resin 5 parts ~ 10 parts, 5 parts ~ 10 parts, mylar, polyurethane resin 3 parts ~ 5 parts, silicon-Ji resin 1 part ~ 2 parts, organic siliconresin 5 parts ~ 10 parts, fluoro-base resin 1 part ~ 2 parts, polyesteramide resin 5 parts ~ 8 parts, 1 part ~ 2 parts, phenolic resins, epoxy resin 20 parts ~ 25 parts, UV cured resin 5 parts ~ 15 parts and auxiliary agent 1.5 parts ~ 2.5 parts, wherein, described nano-metal particle comprises iron powder, carbon-coated iron powder, nickel powder, carbon nickel coat powder, silver powder, a kind of or several arbitrarily mixture in bronze, described auxiliary agent comprises curing agent, ultraviolet absorber, light stabilizer, antistatic additive, curing agent, wetting agent, a kind of or several arbitrarily mixture in brightening agent and dispersant.

First, above-mentioned heat dissipating layer can be formed have irregular cancellated heat radiation system by adding graphene nano particle 0.5 part ~ 1.5 parts and CNT 0.5 part ~ 1.5 parts and nano-metal particle 0.3 part ~ 0.8 part in described heat dissipating layer, that is, by add graphene nano particle 0.5 part ~ 1.5 parts and CNT 0.5 part ~ 1.5 parts and nano-metal particle 0.3 part ~ 0.8 part can be formed in described heat dissipating layer some have staggered, distortion, spiral is or/and the heat dissipation channel of branch shape stereochemical structure, so, greatly can improve heat conduction and the heat dispersion of described heat dissipating layer, when described LED heat directly and indirect transfer to described heat dissipating layer time, described heat dissipating layer can fast and in time by described heat loss in extraneous medium and be delivered on described substrate layer, thus play radiating and cooling function, ensure that the normal work of described LED, reduce the light decay of described LED, thus the service life of described LED can be extended.

Secondly, by adding by a kind of or any several nano-metal particle mixture formed in iron powder, carbon-coated iron powder, nickel powder, carbon nickel coat powder, silver powder, bronze, the heat dispersion of described heat dissipating layer can be strengthened further.

Finally, above-mentioned substrate layer is by adding polyolefin 20 parts ~ 25 parts, Merlon 15 parts ~ 20 parts, PLA 10 parts ~ 15 parts and PETG 10 parts ~ 15 parts, acrylic resin 5 parts ~ 10 parts, polyether resin 5 parts ~ 10 parts, 5 parts ~ 10 parts, mylar, polyurethane resin 3 parts ~ 5 parts, silicon-Ji resin 1 part ~ 2 parts, organic siliconresin 5 parts ~ 10 parts, fluoro-base resin 1 part ~ 2 parts, polyesteramide resin 5 parts ~ 8 parts, 1 part ~ 2 parts, phenolic resins, epoxy resin 20 parts ~ 25 parts, UV cured resin 5 parts ~ 15 parts and auxiliary agent 1.5 parts ~ 2.5 parts, can produce synergy after the polymerization of these resin reactions, thus make described heat dissipating layer have preferably mechanical performance, the preferably rear resistance to fracture property of bending and preferably bent and deformability, and can overcome owing to adding graphene nano particle 0.5 part ~ 1.5 parts, after CNT 0.5 part ~ 1.5 parts and nano-metal particle 0.3 part ~ 0.8 part, the problem that caused described heat dissipating layer brittleness increases, thus can better coordinate described laminating layer to carry out bending together with described substrate layer to be out of shape.In addition, described heat dissipating layer also has preferably toughness, thus can fixedly mount described lamp socket better, comes off from described heat dissipating layer to avoid described lamp socket.

Preferably, the described fountain lamp of an embodiment of the present invention, wherein, the described heat dissipating layer of described lamp plate comprises each component of following mass parts:

Graphene nano particle 0.5 part ~ 1 part, CNT 0.5 part ~ 1 part, nano-metal particle 0.5 part ~ 0.8 part, polyolefin 23 parts ~ 25 parts, Merlon 18 parts ~ 20 parts, PLA 10 parts ~ 12 parts and PETG 10 parts ~ 12 parts, acrylic resin 8 parts ~ 8.5 parts, polyether resin 5 parts ~ 8 parts, 5 parts ~ 8 parts, mylar, polyurethane resin 4.5 parts ~ 5 parts, silicon-Ji resin 1 part ~ 1.5 parts, organic siliconresin 8 parts ~ 10 parts, fluoro-base resin 1 part ~ 1.5 parts, polyesteramide resin 6.5 parts ~ 8 parts, 1 part ~ 1.5 parts, phenolic resins, epoxy resin 23 parts ~ 25 parts, UV cured resin 5 parts ~ 13 parts and auxiliary agent 2 parts ~ 2.5 parts, wherein, described nano-metal particle comprises iron powder, carbon-coated iron powder, nickel powder, carbon nickel coat powder, silver powder, a kind of or several arbitrarily mixture in bronze, described auxiliary agent comprises curing agent, ultraviolet absorber, light stabilizer, antistatic additive, curing agent, wetting agent, a kind of or several arbitrarily mixture in brightening agent and dispersant.

Preferably, the described fountain lamp of an embodiment of the present invention, wherein, the described heat dissipating layer of described lamp plate comprises each component of following mass parts:

Graphene nano particle 1 part, CNT 1 part, nano-metal particle 0.8 part, polyolefin 24 parts, Merlon 18.5 parts, PLA 10 parts and PETG 10 parts, acrylic resin 8 parts, polyether resin 7 parts, 7 parts, mylar, polyurethane resin 4.5 parts, silicon-Ji resin 1 part, organic siliconresin 8 parts, fluoro-base resin 1.5 parts, polyesteramide resin 8 parts, 1.5 parts, phenolic resins, epoxy resin 25 parts, UV cured resin 5 parts and auxiliary agent 2 parts, wherein, described nano-metal particle comprises iron powder, carbon-coated iron powder, nickel powder, carbon nickel coat powder, silver powder, a kind of or several arbitrarily mixture in bronze, described auxiliary agent comprises curing agent, ultraviolet absorber, light stabilizer, antistatic additive, curing agent, wetting agent, a kind of or several arbitrarily mixture in brightening agent and dispersant.

More uniformly be blended in described heat dissipating layer to make graphene nano particle, CNT and nano-metal particle, and make described heat dissipating layer fit in described substrate layer more securely, the problem that described heat dissipating layer is separated with described substrate layer is there is during to alleviate the bending of described lamp plate, such as, the described fountain lamp of an embodiment of the present invention, wherein, the preparation method of the described heat dissipating layer of described lamp plate, comprises the steps:

Step S210: by polyolefin 20 parts ~ 25 parts, Merlon 15 parts ~ 20 parts, PLA 10 parts ~ 15 parts and PETG 10 parts ~ 15 parts, acrylic resin 5 parts ~ 10 parts, polyether resin 5 parts ~ 10 parts, 5 parts ~ 10 parts, mylar, polyurethane resin 3 parts ~ 5 parts, silicon-Ji resin 1 part ~ 2 parts, organic siliconresin 5 parts ~ 10 parts, fluoro-base resin 1 part ~ 2 parts, polyesteramide resin 5 parts ~ 8 parts, 1 part ~ 2 parts, phenolic resins, epoxy resin 20 parts ~ 25 parts, UV cured resin 5 parts ~ 15 parts and auxiliary agent 1.5 parts ~ 2.5 parts melting mixing, obtain fused solution.

Step S220: while hot graphene nano particle 0.5 part ~ 1.5 parts, CNT 0.5 part ~ 1.5 parts and nano-metal particle 0.3 part ~ 0.8 part are added in described fused solution, then, stir, obtain cooling fluid after mixing.

Step S230: while hot described cooling fluid is coated on described substrate layer, obtains described heat dissipating layer after cooling.

So, graphene nano particle, CNT and nano-metal particle can be made more uniformly to be blended in described heat dissipating layer by above-mentioned steps S210 to step S230, and make described heat dissipating layer fit in described substrate layer more securely, there is the problem that described heat dissipating layer is separated with described substrate layer during to alleviate the bending of described lamp plate.

Need lamp plate to be separated into some less modules to solve traditional fountain lamp, or need the specific lamp plate being prepared into integral type in advance by techniques such as injection moulding, casting or die casting, the globality brought is poor, heat dispersion is poor, installation and maintenance are more loaded down with trivial details, and specificity is too strong, and universality is poor, die manufacturing cost is high, the problem of size more difficult adjustment after having deviation.Such as, the lamp plate of the described fountain lamp of an embodiment of the present invention, it has, and globality is comparatively strong, good heat dispersion performance, installation and maintenance are more convenient, universality is comparatively strong, size more easily regulates after having deviation, deformability is strong and bent advantage.

An example is, the described fountain lamp of an embodiment of the present invention, and wherein, the described reflecting layer of described lamp plate comprises each component of following mass parts:

Polyolefin 50 parts ~ 65 parts, Merlon 45 parts ~ 50 parts, PLA 15 parts ~ 25 parts and PETG 10 parts ~ 20 parts.

Above-mentioned reflecting layer is by adding polyolefin 50 parts ~ 65 parts, Merlon 45 parts ~ 50 parts, PLA 15 parts ~ 25 parts and PETG 10 parts ~ 20 parts, described heat dissipating layer can be made to have preferably mechanical performance, preferably suppleness and firmness, preferably resistance to fracture property and decay resistance after bending, thus can better coordinate described laminating layer, described substrate layer to carry out bending distortion together with described heat dissipating layer.In addition, the light reflectivity in described reflecting layer is higher, when a part of light of described LED exposes to described reflecting layer, the light that described reflecting layer can send LED reflects and/or scattering, thus improve the utilization rate of described LED light better, meanwhile, the diffusion angle of described LED light can also be increased.

Preferably, the described fountain lamp of an embodiment of the present invention, wherein, the described reflecting layer of described lamp plate comprises each component of following mass parts:

Polyolefin 55 parts ~ 60 parts, Merlon 47 parts ~ 48 parts, PLA 15 parts ~ 20 parts and PETG 15 parts ~ 20 parts.

Preferably, the described fountain lamp of an embodiment of the present invention, wherein, the described reflecting layer of described lamp plate comprises each component of following mass parts:

Polyolefin 60 parts, Merlon 47 parts, PLA 20 parts and PETG 20 parts.

In order to improve the heat dispersion of fountain lamp 10 further, such as, refer to Fig. 2, laminating layer 110 is provided with heat radiation bubble 111 away from a side of substrate layer 120; And for example, cooling agent is filled with in heat radiation bubble 111; And for example, the material of cooling agent is heavy water; And for example, the material of cooling agent is liquefied ammonia; And for example, and for example the material of cooling agent is light-water; And for example, the material of cooling agent is CFC; And for example, the bubble 111 that dispels the heat is set to hemispherical dome structure; And for example, multiple heat radiation bubble 111 is set; And for example, the rectangular array distribution of multiple heat radiation bubbles 111 is in laminating layer, can be absorbed by heat radiation bubble 111 and transmit and next heat in described laminating layer, heat can be scattered and disappeared by self by heat radiation bubble 111 1 aspect rapidly, on the other hand, also heat can be delivered in outside mounting, so, the heat dispersion of fountain lamp 10 can be improved further.

In order to improve the heat dispersion of fountain lamp 10 further, such as, refer to Fig. 3, laminating layer 110 is provided with heat dissipating ring 112 away from a side of substrate layer 120; And for example, heat dissipating ring 112 is set to arcuate structure; And for example, the two ends of heat dissipating ring 112 are all arranged on laminating layer 110; And for example, heat dissipating ring 112 is set to loop configuration, and the side of heat dissipating ring 112 fits in laminating layer 110; And for example, heat dissipating ring 112 is set to double helix, and the two ends of heat dissipating ring 112 are all arranged on laminating layer 110; And for example, heat dissipating ring 112 is set to hollow-core construction, is filled with cooling agent in heat dissipating ring 112; And for example, the material of cooling agent is liquefied ammonia; And for example, multiple heat dissipating ring 112 is set; And for example, the rectangular array distribution of multiple heat dissipating rings 112 is in laminating layer 110, can be absorbed by heat dissipating ring 112 and transmit and next heat in described laminating layer, heat can be scattered and disappeared by self by heat dissipating ring 112 1 aspect rapidly, on the other hand, also heat can be delivered in the mounting of the outside of fitting with heat dissipating ring 112, so, the heat dispersion of fountain lamp 10 can be improved further.

In order to improve the heat dispersion of fountain lamp 10 further, and strengthening the bendable folding endurance of described laminating layer 110, such as, referring to Fig. 4, laminating layer 110 offers radiating groove 113 away from a side of substrate layer 120; And for example, many radiating grooves 113 are set, and are provided with interval between many radiating grooves 113; And for example, many radiating grooves 113 be arranged in parallel; And for example, many radiating grooves 113 are set, and many radiating grooves 113 are in net distribution; And for example, many radiating grooves 113 are vertically arranged; And for example, the two ends of radiating groove 113 are through with the dual-side of laminating layer 110 respectively; And for example, radiating groove 113 is set to prismatic structure; And for example, radiating groove 113 is set to semicircular structure, so, can improve the heat dispersion of fountain lamp 10 further, and strengthen the bendable folding endurance of described laminating layer 110.

In order to improve the heat dispersion of fountain lamp 10 further, simultaneously, also in order to increase coefficient of friction between described laminating layer 110 and installed surface, install on described installed surface more securely to make described laminating layer, such as, refer to Fig. 5, laminating layer 110 is provided with heat radiation convex tendon 114 away from a side of substrate layer 120; And for example, the two ends of heat radiation convex tendon 114 are connected with the dual-side of laminating layer 110 respectively; And for example, the convex tendon 114 that dispels the heat is set to semicircular structure; And for example, the convex tendon 114 that dispels the heat is set to prismatic structure; And for example, many heat radiation convex tendons 114 are set, and are provided with interval between many heat radiation convex tendons 114; And for example, many heat radiation convex tendons 114 be arranged in parallel; And for example, many heat radiation convex tendons 114 are set, and many radiating grooves are that net distribution is on laminating layer 110; And for example, many heat radiation convex tendons 114 are vertically arranged, and so, can improving the heat dispersion of fountain lamp 10 further, also in order to increase coefficient of friction between described laminating layer 110 and installed surface, installing more securely on described installed surface to make described laminating layer meanwhile.

In order to improve the heat dispersion of fountain lamp 10 further, meanwhile, also strengthen the bendable folding endurance of described substrate layer 120, such as, refer to Fig. 6, substrate layer 120 offers louvre 121; And for example, the two ends of louvre 121 are through with the dual-side of substrate layer 120 respectively; And for example, multiple louvre 121 is set, and is provided with interval between multiple louvre 121; And for example, multiple louvre 121 be arranged in parallel; And for example, multiple louvre 121 is set, and multiple louvre 121 is, and net distribution is in substrate layer 120; And for example, multiple louvre 121 is vertically arranged; And for example, louvre 121 is set to prismatic structure; And for example, louvre 121 is set to semicircular structure, so, can improve the heat dispersion of fountain lamp 10 further, meanwhile, also strengthens the bendable folding endurance of described substrate layer 120.

In order to improve the heat dispersion of fountain lamp 10 further, and not affecting the bending performance of described laminating layer 110, such as, referring to Fig. 7, laminating layer 110 also establishes one deck heat dissipation film 150 away from substrate layer 120 1 side; And for example, the material of heat dissipation film 150 is aluminium foil; And for example, the material of heat dissipation film 150 is tinfoil paper; And for example, the material of heat dissipation film 150 is graphite; And for example, the material of heat dissipation film 150 is Graphene; And for example, the thickness of heat dissipation film 150 is 30 μm ~ 400 μm; And for example, the thickness of heat dissipation film 150 is 300 μm ~ 380 μm; And for example, the thickness of heat dissipation film 150 is 350 μm, so, can improve the heat dispersion of fountain lamp 10 further, and not affect the bending performance of described laminating layer 110.

In order to improve the heat dispersion of fountain lamp 10 further, meanwhile, also can strengthen the bend resistance fracture property of described substrate layer 120, such as, refer to Fig. 8, in substrate layer 120, be provided with radiating wire 122; And for example, the two ends of radiating wire 122 are through with the dual-side of substrate layer 120 respectively; And for example, radiating wire 122 is set to helical structure; And for example, radiating wire 122 is set to wavy shaped configuration; And for example, many radiating wires 122 are set, and many radiating wires 122 are that net distribution is in substrate layer 120; And for example, the diameter of radiating wire 122 is 0.1 μm ~ 5 μm; And for example, the diameter of radiating wire 122 is 0.5 μm ~ 1 μm; And for example, the diameter of radiating wire 122 is 0.8 μm, so, can improve the heat dispersion of fountain lamp 10 further, meanwhile, also can strengthen the bend resistance fracture property of described substrate layer 120.

In order to improve the heat dispersion of fountain lamp 10 further, and do not affect the bending performance of described substrate layer 120, such as, refer to Fig. 9, be provided with heat dissipation channel 123 in substrate layer 120, in heat dissipation channel 123, be filled with cooling agent, in heat dissipation channel 123, be also provided with multiple folding bolt 124, be provided with interval between multiple folding bolt 124, the material of folding bolt 124 is polymer shape memory material, and for example, heat dissipation channel 123 has circular cross-section, and for example, heat dissipation channel 123 is set to helical structure, and for example, heat dissipation channel 123 is set to three-back-shaped helical structure, and for example, folding bolt 124 is circular pan-like structure, and for example, the distance of two adjacent folding bolts 124 is set to 1cm ~ 2cm, and for example, the distance of two adjacent folding bolts 124 is set to 1.5cm ~ 1.8cm, and for example, the distance of two adjacent folding bolts 124 is set to 1.6cm, when described substrate layer 120 is heated, the folding bolt 124 adopting polymer shape memory material to prepare is heated and can shrinks, cooling agent so in heat dissipation channel 123 will flow through the gap between the folding bolt 124 after contraction and described heat dissipation channel 123, thus realize the circulation in heat dissipation channel 123, be appreciated that, the temperature that described substrate layer 120 is positioned near the position of described LED 300 will be greater than described substrate layer 120 and be positioned at the temperature of the position away from described LED 300, that is, the region that temperature is higher, the degree that described folding bolt 124 shrinks is larger, now, the degree of cooling agent circulation is also larger, so, the heat dispersion of fountain lamp 10 can be improved further, and do not affect the bending performance of described substrate layer 120.

In order to improve fountain lamp 10 heat dispersion further, and can shape to fountain lamp 10 better, such as, keep fixing shape after bending, such as, refer to Figure 10, laminating layer 110 is provided with heat radiation rack 115 away from substrate layer 120 1 side; And for example, heat radiation rack 115 is set to rectangular laminated structure; And for example, heat radiation rack 115 offers multiple installing hole 116, e.g., carries out installation fix by the screw of outside through described installing hole 116; And for example, heat radiation rack 115 has the bending structure of 90 degree; And for example, heat radiation rack 115 has the bending structure of 0 degree ~ 90 degree; And for example, heat radiation rack 115 has the bending structure of circular arc; And for example, heat radiation rack 115 is set to planar structure away from a side of laminating layer 110, so, can improve fountain lamp 10 heat dispersion further, and can shape to fountain lamp 10 better.

In order to install fountain lamp 10 better further, to make described laminating layer 110 be adsorbed in outside mounting, such as, refer to Figure 10, laminating layer 110 is provided with sucker 117 away from substrate layer side; And for example, multiple sucker 117 is set, the rectangular array arrangement of multiple suckers 117; And for example, sucker 117 comprises rod section 118 and the sucking disk part 119 fixing with rod section 118; And for example, rod section 118 is arranged on laminating layer 110; And for example, rod section 118 is embedded in laminating layer 110; And for example, sucking disk part 119 arranges away from rod section 118 1 side and inhales surperficial 119a; And for example, inhale surperficial 119a and rod section 118 1 side is provided with gel layer; And for example, inhale surperficial 119a and be set to circular configuration, so, utilize sucker 117 can be adsorbed on securely in outside mounting, thus further fountain lamp 10 can be installed better, be adsorbed in outside mounting to make described laminating layer 110.

By superposing the laminating layer 110 of setting, substrate layer 120, heat dissipating layer 130 and reflecting layer 140 successively on the lamp plate 100 of above-mentioned fountain lamp 10, good heat dispersion and deformability can be obtained, when lamp socket 200, LED 300 and wire 400 are arranged on lamp socket 100, can better Matching installation on different installed surfaces, installation and maintenance are comparatively simple, and universality is also stronger.

Such as, the fountain lamp that the mutual combination that other embodiments of fountain lamp of the present invention also comprise the respective embodiments described above is formed.

The above embodiment only have expressed several embodiment of the present invention, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the scope of the claims of the present invention.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (8)

1. a fountain lamp, is characterized in that, comprising:

Lamp plate, described lamp plate comprise superpose setting successively laminating layer, substrate layer, heat dissipating layer and reflecting layer, described heat dissipating layer is provided with mounting groove away from the side of described substrate layer, and described reflecting layer is provided with the installing hole be communicated with described mounting groove;

Described substrate layer offers louvre;

Lamp socket, a part for described lamp socket is fixedly installed in described mounting groove, and another part of described lamp socket is arranged in described installing hole;

LED, described LED is arranged at described lamp socket; And

Wire, described wire is arranged in described heat dissipating layer, and is electrically connected with described lamp socket.

2. fountain lamp according to claim 1, is characterized in that, the two ends of described louvre are through with the dual-side of described substrate layer respectively.

3. fountain lamp according to claim 1, is characterized in that, arranges multiple described louvre, and is provided with interval between multiple described louvre.

4. fountain lamp according to claim 3, is characterized in that, multiple described louvre be arranged in parallel.

5. fountain lamp according to claim 1, is characterized in that, arranges multiple described louvre, and multiple described louvre is, and net distribution is in described substrate layer.

6. fountain lamp according to claim 5, is characterized in that, multiple described louvre is vertically arranged.

7. fountain lamp according to claim 1, is characterized in that, described louvre is set to prismatic structure.

8. fountain lamp according to claim 1, is characterized in that, described louvre is set to semicircular structure.