CN106016078A - Wall lamp - Google Patents

Abstract

The invention relates to a wall lamp. The wall lamp comprises a base, lamp shells, heat dissipation bases, substrates and lamp boards. The base is provided with installing buckles. An installing groove is formed in the face, back onto the installing buckles, of the base. The lamp shells abut against the face, back onto the installing buckles, of the base, buckling blocks are arranged at the ends, facing the base, of the lamp shells in a protruding manner, and the buckling blocks are connected with the installing groove in a buckled manner. The heat dissipation bases are contained in the lamp shells. The substrates are arranged in the heat dissipation bases, and the substrates are provided with power supply terminals. The lamp boards are arranged in the heat dissipation bases, the lamp boards are provided with power connection terminals and a plurality of lamp bodies electrically connected with the power connection terminals, and the power connection terminals are inserted in the power supply terminals. A heat dissipation layer is arranged on the face, facing the corresponding substrate, of each lamp board. The heat dissipation bases are used for absorbing heat emitted by the substrates and the lamp boards, the heat is dissipated through the lamp shells abutting against the heat dissipation bases, heat of the lamp shells can also be dissipated through the base, and therefore heat on the substrates and the lamp boards can be rapidly dissipated, the heat dissipation efficiency is improved, and the heat dissipation effect is better.

Description

Wall lamp

Technical field

The present invention relates to lighting technical field, particularly relate to wall lamp.

Background technology

Illuminating lamp for application in all cases, provides the user illumination, has great convenience for the user, and passes The illuminating lamp of system includes electric filament lamp, daylight lamp and LED.LED has that energy consumption is low, life-span length, green The advantage of environmental protection, in the case of LED obtains tremendous development, LED gradually substitutes traditional electric filament lamp And daylight lamp, but LED also has very important defect, can send substantial amounts of heat during its work, as dissipated Thermal effect is the best, then will result in LED operation irregularity, and then affect its service life.Traditional LED Heat radiation is to carry out heat conduction by heat dissipation metal plate and dispel the heat, and the radiating effect so obtained is the most undesirable.

Summary of the invention

Based on this, it is necessary to for the defect that traditional LED radiating effect is poor, it is provided that a kind of wall lamp, Radiating efficiency can be improved.

A kind of wall lamp, including: pedestal, described pedestal is provided with installation buckle, the most described peace of described pedestal The one side detained that is installed is provided with mounting groove；

Lamp housing, described lamp housing is connected to the one side of described pedestal the most described installation buckle, and described lamp housing court One end projection of described pedestal is provided with binding block, and described binding block is fastened and connected with described mounting groove；

Radiating seat, described radiating seat is placed in lamp housing, and the outer surface of described radiating seat is connected to described lamp The inner surface of shell；

Substrate, described substrate is arranged in described radiating seat, described substrate is provided with power supply terminal；

Lamp plate, described lamp plate is arranged in described radiating seat, and described lamp plate and described substrate interval are arranged, Being provided with electrical terminals and some lamp bodies on described lamp plate, some described lamp bodies electrically connect with described electrical terminals, Described electrical terminals and described power supply terminal grafting；

Described lamp plate is provided with heat dissipating layer towards the one side of described substrate.

In one embodiment, described lamp housing offers some air vents.

In one embodiment, described air vent is circular.

In one embodiment, described air vent is square.

In one embodiment, described air vent is polygon.

In one embodiment, the width of described air vent is gradually increased by lamp housing interior.

Above-mentioned wall lamp, the heat sent by radiating seat absorptive substrate and lamp plate, and by abutting with radiating seat Lamp housing heat is distributed, and the heat of lamp housing distributes also by pedestal, so that substrate and lamp plate On heat can Quick diffusing, improve radiating efficiency so that better heat-radiation effect, improve wall lamp Service life.

Accompanying drawing explanation

Fig. 1 is the perspective view of the wall lamp of an embodiment；

Fig. 2 is the perspective exploded view of the wall lamp of an embodiment；

Fig. 3 is the perspective view of the lamp housing of an embodiment；

Fig. 4 is the members one direction perspective exploded view of the wall lamp of an embodiment；

Fig. 5 is the other direction perspective exploded view of the members of the wall lamp of an embodiment；

Fig. 6 is the perspective view of the lamp housing of another embodiment；

Fig. 7 is the perspective exploded view of the wall lamp of another embodiment；

Fig. 8 is the lamp housing perspective view with heat conduction ring of another embodiment.

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. Accompanying drawing gives the better embodiment of the present invention.But, the present invention can come in many different forms Realize, however it is not limited to embodiments described herein.On the contrary, provide the purpose of these embodiments to be Make the disclosure is understood more thorough comprehensively.

Unless otherwise defined, all of technology used herein and scientific terminology and the technology belonging to the present invention The implication that the technical staff in field is generally understood that is identical.The art used the most in the description of the invention Language is intended merely to describe the purpose of specific embodiment, it is not intended that in limiting the present invention.Used herein Term " and/or " include the arbitrary and all of combination of one or more relevant Listed Items.

Such as, a kind of wall lamp, including: pedestal, described pedestal is provided with installation buckle, and described pedestal is dorsad The one side of described installation buckle is provided with mounting groove；Lamp housing, it is described dorsad that described lamp housing is connected to described pedestal The one side of buckle is installed, and described lamp housing is provided with binding block, described button towards one end projection of described pedestal Close block to be fastened and connected with described mounting groove；Radiating seat, described radiating seat is placed in lamp housing, and described heat radiation The outer surface of seat is connected to the inner surface of described lamp housing；Substrate, described substrate is arranged in described radiating seat, It is provided with power supply terminal on described substrate；Lamp plate, described lamp plate is arranged in described radiating seat, and described lamp Plate and described substrate interval are arranged, and described lamp plate is provided with electrical terminals and some lamp bodies, some described lamps Body electrically connects with described electrical terminals, described electrical terminals and described power supply terminal grafting.

As depicted in figs. 1 and 2, it is the wall lamp 10 of an embodiment, including: pedestal 100, described pedestal 100 are provided with installation buckle 110, and the one side of described pedestal 100 the most described installation buckle 110 is provided with peace Tankage 101；Lamp housing 200, described lamp housing 200 is connected to described pedestal 100 the most described installation buckle 110 One side, and described lamp housing 200 is provided with binding block 210 towards one end projection of described pedestal 100, described Binding block 210 is fastened and connected with described mounting groove 101；Radiating seat 300, described radiating seat 300 is placed in lamp In shell 200, and the outer surface of described radiating seat 300 is connected to the inner surface of described lamp housing 200；Substrate 400, Described substrate 400 is arranged in described radiating seat 300, and described substrate 400 is provided with power supply terminal 410； Lamp plate 500, described lamp plate 500 is arranged in described radiating seat 300, and described lamp plate 500 and described substrate 400 intervals are arranged, and described lamp plate 500 is provided with electrical terminals 510 and some lamp bodies 520, some described Lamp body 520 electrically connects with described electrical terminals 510, described electrical terminals 510 and described power supply terminal 410 Grafting.Such as, described lamp body 520 is LED lamp bead.

The heat sent by radiating seat 300 absorptive substrate 400 and lamp plate 500, and by with radiating seat 300 Heat is distributed by the lamp housing 200 abutted, and the heat of lamp housing 200 distributes also by pedestal 100, from And make the heat on substrate 400 and lamp plate 500 can Quick diffusing, improve radiating efficiency so that dissipate Thermal effect more preferably, improves the service life of wall lamp 10.

Specifically, in the present embodiment, pedestal 100 is used for carrying described lamp housing 200, i.e. carries whole wall lamp The main part of 10, and pedestal 100 also has heat sinking function, such as, this pedestal 100 is metal material system Becoming, the installation buckle 110 of this pedestal 100 is used for being arranged on different mounting structure, such as, is arranged on wall On wall, such as, it is arranged on lamppost, such as, as in figure 2 it is shown, described pedestal 100 is provided with multiple peace Be installed button 110, and such as, this installation buckle 110 includes buckle main body 111, spring (not shown) and buckle Block 113, described buckle main body 111 is fixing with described pedestal 100 to be connected, and two described buckle blocks 113 are relative Arrange, and rotation be arranged at described buckle main body 111, is connected by spring between two described buckle blocks 113, Such as, two described buckle blocks 113 have triangular structure, and such as, two described buckle blocks 113 are cone Shape, such as, the width of two described buckle blocks 113 by near one end of described pedestal 100 to away from described One end of pedestal 100 is gradually reduced, and so, beneficially two buckle blocks 113 enter in mounting structure, and After entering in mounting structure, two buckle blocks 113 are located remotely from each other under spring effect and open, and make Obtain buckle block 113 to be stuck in mounting structure, so that spring can be fixed and be difficult to drop, such as, The one side depression that two described buckle blocks 113 are relative is provided with installation portion, and the two ends of described spring are respectively provided with In two installation portions and fixing with two described buckle blocks 113 be connected, so, due to spring two ends all Being limited in installation portion, therefore spring is difficult to drop in buckle block 113, and is hardly damaged, thus carries The high service life installing buckle 110.

Specifically, refer to Fig. 1 and Fig. 2, pedestal 100 is provided with mounting groove 101, this mounting groove 101 For installing lamp housing 200, lamp housing 200 is fastened in described mounting groove 101, at one by binding block 210 In embodiment, described binding block 210 is "convex" shaped, described binding block 210 include connecting portion 211 with Buckling parts 212, described connecting portion 211 is fixing with described lamp housing 200 to be connected, and described buckling parts 212 is connected to Described connecting portion 211 is arranged in described mounting groove away from one end of described lamp housing 200, described buckling parts 212 In 101, such as, described mounting groove 101 at least one end open is arranged, such as, and described mounting groove 101 two ends Opening is set, so, owing to the binding block 210 of lamp housing 200 can insert from the two ends of mounting groove 101, And be fixed in mounting groove 101 so that the installation of lamp housing 200 is more convenient, such as, as it is shown in figure 1, Being provided with multiple lamp housing 200 on described mounting groove 101, multiple lamp housings 200 are placed equidistant, and so, are installing What a, after pedestal 100, multiple lamp housings 200 can be arranged on pedestal 100, it is achieved multiple lamp housings 200 Convenient installation.Such as, described mounting groove 101 internal projection arranges multiple fixing rib, such as, described peace Being evenly arranged with multiple fixing rib in tankage 101, buckling parts 212 two ends of described binding block 210 are respectively Abutting with described fixing rib, such as, described fixing rib is perpendicular to described mounting groove 101, so, works as lamp When the binding block 210 of shell 200 inserts in mounting groove 101, described fixing rib can limit described buckling parts 212 so that described binding block 210 is fixed, and then is fixed by lamp housing 200.Such as, described fixing muscle Bar surface has arcuate structure, and the arc mechanism of fixing rib is conducive to binding block 210 in mounting groove 101 Slip, it is simple to the installation of lamp housing 200, and when lamp housing 200 install after, fixing rib can be fixed respectively The two ends of buckling parts 212, so that lamp housing 200 is fixed.Such as, described lamp housing 200 is metal material Making, in the present embodiment, pedestal 100 i.e. can be used for installing lamp housing 200, it is achieved the convenient peace of lamp housing 200 Dress, on the other hand, then by the heat absorption of lamp housing 200, and can distribute, owing to pedestal 100 volume is relatively big, The contact area with air can be increased so that better heat-radiation effect.

In order to improve radiating efficiency further, in one embodiment, as it is shown on figure 3, present invention additionally comprises Heat-conducting plate 600, the activity of described heat-conducting plate 600 is inserted in described lamp housing 200, such as, described lamp housing 200 Including at the bottom of shell 201 and shell wall 202, described shell wall 202 is arranged around at the bottom of described shell 201, and with described shell at the bottom of 201 is one-body molded, and described lamp housing 200 has opening, radiating seat 300 away from one end of 201 at the bottom of described shell Being installed in lamp housing 200 by described opening, radiating seat 300 mutually abuts with lamp housing 200, and substrate 400 Installing successively in lamp socket with lamp plate 500, so, the heat that lamp plate 500 and substrate 400 send can pass It is delivered to radiating seat 300, and heat can be distributed by lamp housing 200 and heat-conducting plate 600 by radiating seat 300, Further, described heat-conducting plate 600 is at least partially arranged at outside described lamp housing 200, due to heat-conducting plate 600 Improve area of dissipation, and then make better heat-radiation effect.

In one embodiment, as it is shown on figure 3, described shell wall 202 is along being parallel to the side of 201 at the bottom of described shell To offering slot 203, the activity of described heat-conducting plate 600 is inserted in described slot 203, in the present embodiment, Heat-conducting plate 600 quickly and conveniently can be inserted in lamp housing 200 by slot 203, or by lamp housing 200 Inside extracting, specifically, heat-conducting plate 600 after a long time use, owing to temperature is higher, easily aoxidizes, leads Causing heat transfer efficiency will reduce, therefore, heat-conducting plate 600 can be changed, thus after wall lamp 10 uses for a long time Heat-conducting plate 600 can be changed, improve heat transfer efficiency.

In order to improve radiating efficiency further, such as, described heat-conducting plate 600 is connected to described radiating seat 300, Such as, described heat-conducting plate 600 is connected to the bottom of described radiating seat 300, such as, described heat-conducting plate 600 It is connected to described radiating seat 300 near the one side of 201 at the bottom of described shell, due to radiating seat 300 and heat-conducting plate 600 It is directly connected to, improves the heat exchange between radiating seat 300 and heat-conducting plate 600 so that radiating seat 300 Heat can quickly be transferred to heat-conducting plate 600, and then improve radiating efficiency further.

In order to improve radiating efficiency further, such as, described slot 203 quantity is two, such as, and two Described slot 203 is symmetricly set in the both sides of described shell wall 202, and such as, each described slot 203 plugs One heat-conducting plate 600, two heat-conducting plates 600 are arranged at the both sides that shell wall 202 is opposing so that two heat-conducting plates Distributing of spacing maximum between 600, beneficially heat, and further increase the area with air contact, Be conducive to the heat absorption of radiating seat 300 and distribute, improving radiating efficiency further.

In one embodiment, described heat-conducting plate 600 includes each component of following mass parts:

Copper 60 parts～85 parts, aluminum 20～35 parts, ferrum 0.5 part～6.5 parts, titanium 0.5 part～5 parts, chromium 1 part～3.5 Part, 2 parts～2.7 parts of stannum, 0.4 part～0.55 part of carbon, boron 0.15 part～0.3 part, silicon 0.1 part～0.3 part, cobalt 0.02 part～0.06 part, 0.01 part～0.05 part of phosphorus, sulfur 0.001 part～0.008 part, 0.001 part of strontium～0.002 Part, bismuth 0.001 part～0.002 part and gadolinium 0.001 part～0.002 part.

In the present embodiment, copper and the heat-conducting plate 600 that aluminum is main component there is good heat conduction and heat radiation Effect, copper and aluminum have higher thermal conductivity so that the heat-conducting effect of heat-conducting plate 600 is more preferably.Heat-conducting plate 600 The non-metallic materials such as middle carbon, boron, silicon have stronger inertia so that heat-conducting plate 600 has good anticorrosive Property, and the stannum contained in heat-conducting plate 600 has the advantages that hardness is relatively low, especially after being heated, becomes soft, So, can reduce the hardness of heat-conducting plate 600, after being heated, heat-conducting plate 600 shape will occur micro-change, this Sample so that the situation of being heated of heat-conducting plate 600 can be observed intuitively, and then allows a user knowledge of wall lamp The caloric value of 10, it is worth mentioning at this point that, the composition of stannum is unsuitable too high, too high, and heat-conducting plate 600 will be caused hard Spending the lowest, easily deformation, on the other hand, the composition of stannum is also unsuitable too low, too low, will cause heat-conducting plate 600 Deformation after being heated is inconspicuous.

In one embodiment, described heat-conducting plate 600 includes each component of following mass parts:

Copper 70 parts, 28 parts of aluminum, ferrum 2 parts, titanium 0.5 part, chromium 1.2 parts, 2.5 parts of stannum, 0.45 part of carbon, Boron 0.2 part, silicon 0.2 part, cobalt 0.04 part, 0.03 part of phosphorus, sulfur 0.006 part, 0.001 part of strontium, bismuth 0.001 Part and gadolinium 0.001 part.

So that be prone to deformation, such as, the thickness of described heat-conducting plate 600 is 2.5mm～4.5mm, preferably Ground, the thickness of described heat-conducting plate 600 is 3mm～4mm, and the thickness of described heat-conducting plate 600 is 3.5mm, The thickness of the heat-conducting plate 600 in the present embodiment can support heat-conducting plate 600 at conventional 20 degrees Celsius to Celsius Spend 35 degrees Celsius and keep not deformation, and time more than 75 degrees Celsius, heat-conducting plate 600 will occur The bending of 0.1mm～0.5mm, so that the deformation of heat-conducting plate 600 is visible.

In order to improve the radiating efficiency of wall lamp 10 further, in one embodiment, refer to Fig. 4, described Lamp plate 500 is provided with heat dissipating layer 530 towards the one side of described substrate 400.Such as, incorporated by reference to Fig. 4 and Fig. 5, Described lamp body 520 is arranged at the one side of the described the most described substrate of lamp plate 500 400, and heat dissipating layer 530 is being inhaled After having received the heat of lamp body 520, distribute to radiating seat 300, by radiating seat 300 by heat absorption also Distributing, the lamp plate 500 comprising heat dissipating layer 530 is compared traditional insulation board being made up of rubber or resin and is had Higher heat conductivility, and improve the hardness of lamp plate 500.Such as, described heat dissipating layer 530 thickness is 0.8mm～2.8mm, it is preferable that described heat dissipating layer 530 thickness is 1.8mm, the heat dissipating layer 530 of the present embodiment Thickness is preferably 1.8mm, on the one hand can provide good heat-sinking capability, and provide support for lamp plate 500, On the other hand less due to thickness, it is to avoid to take too much space.

Described heat dissipating layer 530 is made for metal material, the heat dissipating layer 530 that metal is made have good heat conduction, Heat dispersion.In one embodiment, described heat dissipating layer 530 includes each component of following mass parts:

Copper 65 parts～90 parts, aluminum 15～28 parts, ferrum 2 parts～4.5 parts, titanium 0.2 part～1.8 parts, chromium 0.1 part ～1.5 parts, 0.4 part～0.65 part of carbon, silicon 0.2 part～0.6 part, boron 0.15 part～0.2 part, cobalt 0.03 part～0.06 Part, 0.01 part～0.05 part of phosphorus, sulfur 0.001 part～0.006 part, 0.001 part～0.002 part of strontium, bismuth 0.001 Part～0.002 part and gadolinium 0.001 part～0.002 part.

Comprise copper, aluminum is that the heat dissipating layer 530 of main component has good heat conduction and heat dispersion, containing relatively Many ferrum and carbon can strengthen the hardness of heat dissipating layer 530 so that lamp plate 500 obtains stronger support.

Preferably, described heat dissipating layer 530 includes each component of following mass parts:

Copper 80 parts, 23 parts of aluminum, ferrum 3 parts, titanium 0.8 part, chromium 0.8 part, 0.5 part of carbon, silicon 0.4 part, Boron 0.18 part, cobalt 0.04 part, 0.03 part of phosphorus, sulfur 0.005 part, 0.00 part of strontium, bismuth 0.001 part and gadolinium 0.001 Part.

In order to fix substrate 400 and lamp plate 500, such as, described radiating seat 300 inwall projection arranges at least two Individual stage portion, described substrate 400 and described lamp plate 500 are connected to described stage portion successively, such as, such as Fig. 5 Shown in, described radiating seat 300 internal projection arranges first step portion 301 and second step portion 302, such as, institute State substrate 400 and be disposed in proximity to the first step portion 301 of the one end bottom described radiating seat 300, described lamp plate The 500 second step portions 302 being disposed in proximity to described radiating seat 300 opening part, described first step portion 301 Thickness more than the thickness in described second step portion 302, so, substrate 400 and lamp plate 500 can be very It is fixed on well in described radiating seat 300.Such as, the inwall projection of described radiating seat 300 arranges fixing post 303, described substrate 400 depression arranges fixing groove 401, and described fixing post 303 is arranged in described fixing groove 401 In so that substrate 400 can be fixed in radiating seat 300 by fixing post.

Assemble in lamp housing 200 in order to avoid heat and cannot distribute rapidly, in one embodiment, such as Fig. 6 Shown in, described lamp housing 200 offers some air vents 206.So, the hot-air in lamp housing 200 can lead to Cross air vent 206 and be circulated to outside, and the relatively low air of external temperature also can pass into lamp housing 200, such as, Described air vent 206 is opened on described shell wall 202, and such as, some described through holes are uniformly opened in described On shell wall 202, so, heat can pass through lamp plate 500 to major part, substrate 400 is transferred to radiating seat 300 And then be transferred to lamp housing 200, lamp housing 200 distribute, and fraction heat can be circulated by air and be carried Walk, thus be effectively increased radiating efficiency, it is to avoid heat is assembled in lamp housing 200 and cannot be distributed rapidly.

Such as, described air vent 206 is circular, and and for example, described air vent 206 is square, and for example, and institute Stating air vent 206 is polygon, and such as, described polygon includes hexagon, octagon.

In order to improve the drafting efficiency of lamp housing 200 further, the width of described air vent 206 is by lamp housing 200 Interior is gradually increased, and such as, described air vent 206 has hole wall, and such as, described hole wall tilts Arranging, such as, described hole wall is internal outside gradually to outer inclination, so to lamp housing 200 by lamp housing 200 The aperture making air vent 206 is gradually increased, beneficially the discharge of hot-air, such as, and described hole wall both sides The different setting of slope tilted, i.e. hole wall is different at the slope of both sides, so so that circulate along hole wall Air velocity differ, owing to the density of hot-air is less, and cold air density is relatively big, and so, heat is empty Gas circulates concentrating to the side of hole wall, and cold air circulates concentrating to the opposite side of hole wall, and due to hole The slope of wall differs, and then makes the velocity of liquid assets of hot-air and cold air inconsistent, and then makes air Exchange velocity is accelerated so that heat exchanger effectiveness improves.

In the present embodiment, as shown in Figure 4 and Figure 5, it is inserted directly into power supply terminal due to electrical terminals 510 410, so that without connecting electrical equipment by cable in wall lamp 10, effectively reduce owing to cable takies Volume, add the clearance spaces in lamp housing 200, and then make better heat-radiation effect, and beneficially wall The assembling of lamp 10.Although electrical terminals 510 and power supply terminal 410 be directly connected to save space, but Owing to the electric current between lamp plate 500 and substrate 400 is all transmitted by electrical terminals 510 and power supply terminal 410, Heat is easily made to concentrate on electrical terminals 510 and power supply terminal 410, in order to avoid electrical terminals 510 With power supply terminal 410 overheated generation short circuit due to conduction, in one embodiment, as shown in Figure 4, basis Invention also includes the lasso 700 that dispels the heat, and described heat radiation lasso 700 is sheathed on outside described electrical terminals 510, and The two ends of described heat radiation lasso 700 abut with described electrical terminals 510 and described power supply terminal 410 respectively. By heat radiation lasso 700, electrical terminals 510 is coated with so that electrical terminals 510 and power supply terminal 410 Heat can be absorbed by heat radiation lasso 700, and is distributed by heat radiation lasso 700, and heat radiation lasso 700 There are insulating properties, it is possible to be prevented effectively from the generation of short circuit.

In one embodiment, referring to Fig. 4, described electrical terminals 510 includes terminal body 511 and pin 512, described terminal body 511 electrically connects with described lamp body 520, and described pin 512 one end is inserted in described In terminal body 511, the other end is plugged in described power supply terminal 410, and such as, described heat radiation lasso 700 overlaps Being located at outside described pin 512, such as, the inner surface of described heat radiation lasso 700 supports with described pin 512 Connecing, such as, described heat radiation lasso 700 one end is provided with socket part, described socket part be sheathed on described in connect electricity The outside of terminal 510.

In the present embodiment, electrical terminals 510 and the heat of power supply terminal 410 are made by heat radiation lasso 700 Amount can be absorbed and be distributed, and heat radiation lasso 700 can effectively protect electrical terminals 510 so that power connection end Son 510 insulation, thus it is prevented effectively from short circuit, such as, described heat radiation lasso 700 includes the most successively Insulating barrier, heat-sink shell and the protective layer connected, described insulating barrier is for insulating to metallic conductor, and heat-sink shell For absorbing heat and being transferred to protective layer, heat-sink shell internal structure is protected by protective layer, and provides absolutely Edge.

In one embodiment, described insulating barrier includes each component of following mass parts:

Silicon 20 parts～25 parts, 10 parts～15 parts of carbon, boron 0.2～2.5 parts, 0.1 part～1.8 parts of phosphorus and sulfur 0.01 Part～0.08 part.

In the present embodiment, insulating barrier contains substantial amounts of silicon and carbon, it is possible to effectively insulate, it is to avoid electrical terminals 510 short circuits, and silicon has preferable heat conductivility, it is possible to make heat be transferred to rapidly heat-sink shell.

In one embodiment, described heat-sink shell includes each component that following quality is divided:

Copper 20 parts～45 parts, aluminum 15～25 parts, titanium 0.2 part～1.8 parts, lithium 0.2 part～1.2 parts, 0.2 part of carbon ～0.45 part, silicon 0.1 part～0.3 part, boron 0.15 part～0.2 part, cobalt 0.03 part～0.06 part, 0.01 part of phosphorus～0.05 Part, sulfur 0.001 part～0.006 part, 0.001 part～0.002 part of strontium, bismuth 0.001 part～0.002 part and gadolinium 0.001 Part～0.002 part.

Heat-sink shell with copper aluminum as main component has good heat conductivity, it is possible to absorbs rapidly heat, and inhales Thermosphere hardness is relatively low, has preferable toughness, is conducive to the tight cladding to insulating barrier.

Described protective layer is epoxy resin, and epoxy can effectively protect heat-sink shell not leak outside, so that Heat-sink shell outer layer insulation, it is to avoid short circuit.

In one embodiment, as shown in Figure 2 and Figure 7, present invention additionally comprises lampshade 800, described lampshade 800 are fastened on described lamp housing 200 one end away from described pedestal 100, and described lampshade 800 is towards described lamp housing The edge of the one side of 200 is provided with socket layer 810, and such as, described socket layer 810 is annular, such as, institute State socket layer 810 and be located on the described lampshade 800 one side towards described lamp housing 200 ringwise, specifically, Described lampshade 800 material is acrylic, and lampshade 800 is used for protecting lamp body 520, and by the illumination of lamp body 520 Being projected to outside, in the present embodiment, socket layer 810 is for being connected with lamp housing 200, and socket layer 810 has There is a permeability, thus avoid lampshade 800 to be directly connected with lamp housing 200 and cause the air cannot be by lampshade 800 Place flows out, and such as, described socket layer 810 is connected to described lamp housing 200, and such as, described socket layer 810 supports It is connected to the inner surface of described lamp housing 200.

Supporting to provide described socket layer 810, such as, institute's lamp housing 200 inner surface depression is provided with rank Ladder portion 204, described socket layer 810 is connected to described end difference 204, such as, described shell wall 202 inner surface Depression arranges end difference 204, and so, socket layer 810 can directly be connected to described end difference 204, thus Socket layer 810 can be supported.Such as, described socket layer 810 is away from one end of described lampshade 800 Abut with described end difference 204, abut with described shell wall 202 outside described socket layer 810.

So that tool realization ventilation between socket layer 810 and shell wall 202, such as, as it is shown in fig. 7, institute Stating socket layer 810 and have broached-tooth design, such as, the outside of described socket layer 810 has broached-tooth design, example As, described socket layer 810 has pleated structure, and the outside of described socket layer 810 has pleated structure, saw Toothing and pleated structure make to produce between socket layer 810 and shell wall 202 space so that air can be Circulating in space, on the other hand, broached-tooth design and pleated structure make between socket layer 810 and shell wall 202 Add frictional force, and then when lampshade 800 is arranged on lamp housing 200, difficult drop-off.

So that the heat in lamp housing 200 distributes from multiple directions, thus improve radiating efficiency, at one In embodiment, referring again to Fig. 7, the one side of the described the most described socket layer of lampshade 800 810 is provided with to be led Thermosphere 820, such as, described heat-conducting layer 820 is annular, and such as, described heat-conducting layer 820 is located on described lamp The one side of cover 800 the most described socket layers 810, such as, described heat-conducting layer 820 is located on described lampshade 800 The edge of the one side of the most described socket layer 810, such as, described heat-conducting layer 820 thickness is set to 0.5mm～2.5mm, it is preferable that described heat-conducting layer 820 thickness is set to 1.2mm, so, substrate 400 Pedestal 100 can not only be transferred to and distribute by radiating seat 300 and lamp housing 200 with the heat of lamp plate 500, Partial heat can also be distributed by the heat-conducting layer 820 on lampshade 800 so that heat can be contrary by two Direction is transmitted and is distributed, it is to avoid heat is concentrated, thus improves radiating efficiency.

Block in order to avoid the illuminating ray of wall lamp 10 is caused by heat-conducting layer 820, such as, described heat-conducting layer 820 The ratio of width and the width of described lampshade 800 be 1:(10～15), it is preferable that described heat-conducting layer 820 Width is 1:12 with the ratio of the width of described lampshade 800, it is worth mentioning at this point that, heat-conducting layer 820 width is unsuitable Excessive, excessive, lampshade 800 light transmission will be made impacted, and then make illuminating effect the best, and heat conduction The width of layer 820 should not be the least, and the least, the radiating effect making heat-conducting layer 820 is the best.Such as, described Lampshade 800 is circular, and described lamp housing 200 is cylinder, and described heat-conducting layer 820 is annular, it is preferable that The width of described heat-conducting layer 820 is 1:12, in the present embodiment, heat conduction with the diameter ratio of described lampshade 800 The layer width of 820 is 1:12 with the diameter ratio of described lampshade 800, it is possible to be effectively improved heat-conducting layer 820 Radiating efficiency, on the other hand, it is possible to reduce the impact of the light transmission on lampshade 800.

In one embodiment, described heat-conducting layer 820 includes each component of following mass parts:

Copper 50 parts～55 parts, aluminum 25～35 parts, ferrum 1 part～2.5 parts, titanium 0.2 part～1.8 parts, chromium 0.2 part ～1.5 parts, 0.2 part～0.45 part of carbon, silicon 0.1 part～0.3 part, boron 0.15 part～0.2 part, cobalt 0.03 part～0.06 Part, 0.01 part～0.05 part of phosphorus, sulfur 0.001 part～0.006 part, 0.001 part～0.002 part of strontium, bismuth 0.001 Part～0.002 part and gadolinium 0.001 part～0.002 part.

Comprise copper, aluminum is that the heat dissipating layer 530 of main component has good heat conduction and heat dispersion, in this reality Execute in example, owing to the content of aluminum is bigger, it is possible to effectively reduce the quality of heat-conducting layer 820, thus reduce lamp The pressure of cover 800.

Preferably, described heat-conducting layer 820 includes each component of following mass parts:

Copper 52 parts, 28 parts of aluminum, ferrum 1.5 parts, titanium 0.8 part, chromium 0.8 part, 0.3 part of carbon, silicon 0.2 part, Boron 0.18 part, cobalt 0.04 part, 0.03 part of phosphorus, sulfur 0.001 part, 0.001 part of strontium, bismuth 0.001 part and gadolinium 0.001 part.

In order to improve radiating efficiency further, in one embodiment, as it is shown in fig. 7, present invention additionally comprises Heat conduction ring 900, described heat conduction ring 900 is sheathed on outside described lamp housing 200, and described heat conduction ring 900 one end Abutting with one end of described lamp housing 200, the other end is connected to described pedestal 100.Such as, described heat conduction ring 900 are movably set in outside described lamp housing 200.The heat absorption of lamp housing 200 is improved further by heat conduction ring 900 Performance, increases the contact area with air, thus improves radiating efficiency.Such as, described heat conduction ring 900 Inner surface abuts against with the outer surface of described lamp housing 200, specifically, owing to heat conduction ring 900 needs lamp housing The heat absorption of 200, therefore heat conduction ring 900 needs to be connected to described lamp housing 200.

So that the air vent 206 of lamp housing 200 can ventilate, it is to avoid air vent 206 is blocked, and for example, The inner surface of described heat conduction ring 900 is arranged separately with the outer surface of described lamp housing 200, such as, described in lead It is spaced apart 1mm～3mm between inner surface and the outer surface of described lamp housing 200 of hot ring 900, it is preferable that It is spaced apart 2mm between inner surface and the outer surface of described lamp housing 200 of described heat conduction ring 900, so, Heat conduction ring 900 can absorb the heat of lamp housing 200, and the gap between itself and lamp housing 200 enables to ventilate The hot-air in hole 206 can flow out along the gap between heat conduction ring 900 and lamp housing 200 swimmingly.

In order to fix described heat conduction ring 900, such as, as shown in Figure 7 and Figure 8, described lamp housing 200 is away from institute The one end stating pedestal 100 extends formation peristome 205 laterally, and described heat conduction ring 900 one end is connected to described Peristome 205.So, one end of heat conduction ring 900 is connected to described peristome 205, and the other end is connected to institute State pedestal 100 so that the two ends of heat conduction ring 900 can be fixed, so that heat conduction ring 900 consolidates Be sheathed on the outside of lamp housing 200.

In order to improve the radiating efficiency of heat conduction ring 900 further, such as, as shown in Figure 7 and Figure 8, described Heat conduction ring 900 outer surface offers some thermal troughs 901, and such as, some described thermal troughs 901 are led along described The circumferencial direction of hot ring 900 is arranged, and such as, some described thermal troughs 901 are parallel to each other, so, due to Thermal trough 901 adds the surface area of heat conduction ring 900, so that the radiating efficiency of heat conduction ring 900 improves. Such as, the degree of depth of described thermal trough 901 is 1:1 with the ratio of the width of described thermal trough 901, i.e. thermal trough 901 The degree of depth and the width of thermal trough 901 equal, so, the cross section of thermal trough 901 is square, identical week In long rectangle, foursquare area is bigger so that the interior space of thermal trough 901 is bigger, and then further Improve the radiating efficiency of thermal trough 901.

In one embodiment, described heat conduction ring 900 includes each component of following mass parts:

Copper 60 parts～85 parts, aluminum 20～35 parts, ferrum 0.5 part～6.5 parts, titanium 0.5 part～5 parts, chromium 1 part～3.5 Part, 0.4 part～0.55 part of carbon, boron 0.15 part～0.3 part, silicon 0.1 part～0.3 part, cobalt 0.02 part～0.06 part, 0.01 part～0.05 part of phosphorus, sulfur 0.001 part～0.008 part, 0.001 part～0.002 part of strontium, bismuth 0.001 part～0.002 Part and gadolinium 0.001 part～0.002 part.

Comprise copper, aluminum is that the heat dissipating layer 530 of main component has good heat conduction and heat dispersion so that lamp The heat of shell 200 can distribute quickly through heat conduction ring 900.

Each technical characteristic of embodiment described above can combine arbitrarily, for making description succinct, the most right The all possible combination of each technical characteristic in above-described embodiment is all described, but, if these skills There is not contradiction in the combination of art feature, is all considered to be the scope that this specification is recorded.

Embodiment described above only have expressed the several embodiments of the present invention, and it describes more concrete and detailed, But can not therefore be construed as limiting the scope of the patent.It should be pointed out that, for this area For those of ordinary skill, without departing from the inventive concept of the premise, it is also possible to make some deformation and change Entering, these broadly fall into protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be with appended power Profit requires to be as the criterion.

Claims (6)

1. a wall lamp, it is characterised in that including:

Pedestal, described pedestal is provided with installation buckle, and the one side of described pedestal the most described installation buckle is arranged There is mounting groove；

Lamp housing, described lamp housing is connected to the one side of described pedestal the most described installation buckle, and described lamp housing court One end projection of described pedestal is provided with binding block, and described binding block is fastened and connected with described mounting groove；

Radiating seat, described radiating seat is placed in lamp housing, and the outer surface of described radiating seat is connected to described lamp The inner surface of shell；

Substrate, described substrate is arranged in described radiating seat, described substrate is provided with power supply terminal；

Lamp plate, described lamp plate is arranged in described radiating seat, and described lamp plate and described substrate interval are arranged, Being provided with electrical terminals and some lamp bodies on described lamp plate, some described lamp bodies electrically connect with described electrical terminals, Described electrical terminals and described power supply terminal grafting；

Described lamp plate is provided with heat dissipating layer towards the one side of described substrate.

Wall lamp the most according to claim 1, it is characterised in that described lamp housing offers some air vents.

Wall lamp the most according to claim 2, it is characterised in that described air vent is circular.

Wall lamp the most according to claim 2, it is characterised in that described air vent is square.

Wall lamp the most according to claim 2, it is characterised in that described air vent is polygon.

Wall lamp the most according to claim 2, it is characterised in that the width of described air vent is by lamp housing Portion is gradually increased to outside.