CN203927814U - The LED light source of a kind of conductive plate and this conductive plate of use - Google Patents

Abstract

The utility model discloses the LED light source of a kind of conductive plate and this conductive plate of use; Belong to LED light source technical field; Its technical essential comprises heat sink, is wherein wherein simultaneously provided with driving power box at heat sink, between driving power box and heat sink, is provided with conductive plate, and conductive plate comprises insulated substrate, is respectively equipped with positive electrode conducting layer and negative conducting layer on insulated substrate two sides; Between conductive plate and heat sink, be provided with insulating barrier along being circumferentially intervally distributed with some anodal conductive parts that cooperatively interact and negative pole conductive part at insulated substrate edge, on the heat sink in driving power box outside, along being circumferentially distributed with some light source modules, each light source module passes through the corresponding connection of positive and negative electrode conductive part with driving power box; Be provided with some the first magnetic structures at heat sink another side; The utility model aims to provide a kind of rational in infrastructure, quick for installation and conductive plate that illuminating effect is good and uses the LED light source of this conductive plate; For indoor and outdoor lighting.

Description

The LED light source of a kind of conductive plate and this conductive plate of use

Technical field

The utility model relates to a kind of conductive plate, more particularly, relates in particular to a kind of conductive plate for LED light source.The utility model also relates to the LED light source that uses this conductive plate.

Background technology

LED light source, with its technical characterstic such as efficient, energy-conservation, long-lived, small and exquisite, is becoming main force's product of illumination market of new generation, and is effectively pulling the high speed development of environmental protection, Energy Saving Industry.Under every industrial policy of government is helped, just progressively replace traditional lighting and enter huge numbers of families, and social every field.Reduce production costs, improve installation effectiveness, and the convenience of raising replacing traditional lighting light fixture, be one of technical barrier of further promoting LED light source.

Utility model content

The purpose of this utility model is to provide a kind of rational in infrastructure, easy to use and respond well conductive plate.

Another object of the present utility model is to provide a kind of LED light source of rational in infrastructure, the quick for installation and above-mentioned conductive plate of use that illuminating effect is good.

Last technical scheme of the present utility model is achieved in that a kind of conductive plate, comprises insulated substrate, and wherein said insulated substrate two sides is respectively equipped with positive electrode conducting layer and negative conducting layer, and positive and negative electrode conductive layer is connected with external drive power pack; Wherein circumferentially be intervally distributed with some anodal conductive parts that cooperatively interact and negative pole conductive part in edge, side plate face edge at insulated substrate, each anodal conductive part is connected with positive electrode conducting layer, each negative pole conductive part is connected with negative conducting layer, and the positive and negative electrode conductive part respectively cooperatively interacting connects with corresponding outside electric device respectively.

In above-mentioned conductive plate, on insulated substrate, be provided with locating hole and wire through-hole.

In above-mentioned conductive plate, the insulated substrate edge corresponding at positive and negative electrode conductive part is equipped with connection breach, respectively connects breach and is conducted with corresponding anodal conductive part or negative pole conductive part; Connect breach corresponding with the outside both positive and negative polarity conductive plate with electric device.

In above-mentioned conductive plate, the positive and negative electrode conductive part cooperatively interacting is arranged on the insulated substrate plate face edge at negative conducting layer place, the conducting respectively of each negative pole conductive part and negative conducting layer; Between each anodal conductive part and positive electrode conducting layer, be equipped with the first conductive structure, each anodal conductive part is connected conducting with positive electrode conducting layer by the first corresponding conductive structure; Described the first conductive structure is made up of the conductive layer that runs through the conductive hole of insulated substrate and be arranged on conductive hole inwall, the anodal conductive part of conductive layer conducting and positive electrode conducting layer.

In above-mentioned conductive plate, on the insulated substrate plate face at negative conducting layer place, be provided with the cathode conductive disk and the anodal conductive plate that is connected external drive power pack positive pole that connect external drive power pack negative pole, cathode conductive disk is connected conducting with negative conducting layer, anodal conductive plate and negative conducting layer mutually insulated; Described anodal conductive plate is connected conducting by the second conductive structure with positive electrode conducting layer.

In above-mentioned conductive plate, described the second conductive structure is made up of the conductive layer that runs through the conductive hole of insulated substrate and be arranged on conductive hole inwall, the anodal conductive plate of conductive layer conducting and positive electrode conducting layer.

After of the present utility model, a technical scheme is achieved in that a kind of LED light source, comprise heat sink, wherein simultaneously be provided with driving power box at heat sink, between driving power box and heat sink, be provided with conductive plate, between conductive plate and heat sink, be provided with insulating barrier, on the heat sink of driving power box side, edge is circumferentially distributed with some light source modules; Described conductive plate comprises insulated substrate, be respectively equipped with positive electrode conducting layer and negative conducting layer on insulated substrate two sides, positive and negative electrode conductive layer is connected with driving power box, circumferentially be intervally distributed with some anodal conductive parts that cooperatively interact and negative pole conductive part on edge, insulated substrate edge, each anodal conductive part is connected with positive electrode conducting layer, each negative pole conductive part is connected with negative conducting layer, and each light source module connects with corresponding positive and negative electrode conductive part; Be provided with some magnetic structures at heat sink another side, between heat sink and to be installed, be connected by magnetic structure interval, the spacing between heat sink and to be installed is 2～10mm.

In above-mentioned LED light source, described magnetic structure absorption is connected with magnetic base plate, and the spacing between described heat sink and magnetic base plate is 2～10mm.

In above-mentioned LED light source, described light source module by substrate, be distributed in the LED chip on substrate and be arranged on substrate wherein positive terminal and the anode connector of one end close end form, positive and negative electrode joint is connected with each LED chip respectively; Described positive and negative electrode joint respectively with the corresponding corresponding connection of positive and negative electrode conductive part.

In above-mentioned LED light source, the thickness of described insulating barrier and the thickness of substrate adapt; Conductive plate edge is pressed on substrate edges close end; The insulated substrate edge corresponding at positive and negative electrode conductive part is equipped with connection breach, respectively connects breach and is conducted with corresponding anodal conductive part or negative pole conductive part; Connect breach corresponding respectively with corresponding positive and negative electrode joint.

In above-mentioned LED light source, on the corresponding position of heat sink, insulated substrate and insulating barrier, be equipped with locating hole and wire through-hole, power lead sequentially passes heat sink, insulating barrier and is connected with the driver element in driving power box after insulated substrate.

In above-mentioned LED light source, the positive and negative electrode conductive part cooperatively interacting is arranged on the insulated substrate plate face edge at negative conducting layer place, the conducting respectively of each negative pole conductive part and negative conducting layer; Between each anodal conductive part and positive electrode conducting layer, be equipped with the first conductive structure, each anodal conductive part is connected conducting with positive electrode conducting layer by the first corresponding conductive structure; Described the first conductive structure is made up of the conductive layer that runs through the conductive hole of insulated substrate and be arranged on conductive hole inwall, the anodal conductive part of conductive layer conducting and positive electrode conducting layer.

In above-mentioned LED light source, on the insulated substrate plate face at negative conducting layer place, be provided with the cathode conductive disk and the anodal conductive plate that is connected driving power box positive pole that connect driving power box negative pole, cathode conductive disk is connected conducting with negative conducting layer, anodal conductive plate and negative conducting layer mutually insulated; Described anodal conductive plate is connected conducting by the second conductive structure with positive electrode conducting layer; Described the second conductive structure is made up of the conductive layer that runs through the conductive hole of insulated substrate and be arranged on conductive hole inwall, the anodal conductive plate of conductive layer conducting and positive electrode conducting layer.

In above-mentioned LED light source, described magnetic structure is made up of magnet protective cover and the first magnet being arranged in magnet protective cover.

In above-mentioned LED light source, be provided with the terminal fixed strip of strip at magnetic bottom edge, at least one side of described terminal fixed strip is interval with the arc groove of mutual correspondence along its length.

In above-mentioned LED light source, described driving power box is connected with binding post, and binding post is connected with external power source; Described binding post is mainly made up of insulation wire holder, the insulation protective hood that is arranged on the insulation position seat of insulation wire holder bottom and is located at insulation wire holder periphery; On insulation wire holder, be provided with some wiring through holes, in each wiring through hole, be provided with contact tube, the driving power in driving power box passes through contact tube conducting in being located in corresponding wiring through hole with the power line of external power source; Described insulation protective hood both sides are provided with the through wires hole corresponding with insulation wire holder, and described insulation protective hood is connected with insulation position seat; Be provided with elasticity on the peristome end face of both sides along its length at insulation protective hood and hook, be provided with elasticity and hook positioning through hole one to one on insulation position seat, described insulation protective hood and insulation position seat are hooked with positioning through hole and are connected by elasticity; Described insulation wire holder is provided with the installing hole that runs through bottom, is provided with mounting groove in the insulation wire holder bottom of installing hole periphery, is provided with the second magnet in described mounting groove.

The utility model adopts after said structure, by conductive plate is set, is connected with light source module by the conductive part at conductive plate edge, and that realizes power pack and light source module is connected conduction fast, quickly and easily; And the setting of conductive plate, makes the connection processing between light source module and power pack can realize automation, operating efficiency significantly improves.Meanwhile, by rational magnet thickness is set, make magnet in facilitating lamp installation, both can ensure the interval between heat sink and magnetic base plate, form thermal convection current space, can further make heat be passed to magnetic base plate by magnet again, by magnetic base plate auxiliary heat dissipation.

Brief description of the drawings

Below in conjunction with the embodiment in accompanying drawing, the utility model is described in further detail, but do not form any restriction of the present utility model.

Fig. 1 is the wherein structural representation of one side of the utility model embodiment 1 conductive plate;

Fig. 2 is the structural representation of the utility model embodiment 1 conductive plate another side;

Fig. 3 is the decomposition texture schematic diagram of the utility model embodiment 2;

Fig. 4 is the structural representation that the utility model conductive plate is connected with light source module;

Fig. 5 is the decomposition texture schematic diagram of the utility model binding post;

Fig. 6 is the polycrystalline substance schematic diagram of the utility model insulation position seat;

Fig. 7 is the mounting structure schematic diagram of the utility model embodiment 2;

Fig. 8 is the decomposition texture schematic diagram of the utility model embodiment 3;

Fig. 9 is the structural representation of magnetic base plate in the utility model embodiment 3;

Figure 10 is the sectional structure schematic diagram of terminal fixed strip in the utility model embodiment 3;

Figure 11 is the local enlarged diagram at A place in Fig. 9;

Figure 12 is the decomposition texture schematic diagram of the utility model embodiment 4LED light source.

In figure: insulated substrate 1, positive electrode conducting layer 1a, negative conducting layer 1b, anodal conductive part 1c, negative pole conductive part 1d, locating hole 1e, wire through-hole 1f, connect breach 1g, the first conductive structure 1h, cathode conductive disk 2, anodal conductive plate 3, the second conductive structure 4, heat sink 5, driving power box 6, insulating barrier 7, light source module 8, substrate 8a, LED chip 8b, positive terminal 8c, anode connector 8d, magnetic structure 9, magnetic base plate 10, magnet protective cover 11, the first magnet 12, terminal fixed strip 13, arc groove 13a, binding post 14, insulation wire holder 14a, insulation position seat 14b, insulation protective hood 14c, through wires hole 14d, elasticity hooks 14e, positioning through hole 14f, installing hole 14g, mounting groove 14h, the second magnet 14i.

Detailed description of the invention

Embodiment 1

Consult shown in Fig. 1 and Fig. 2, a kind of conductive plate of the present utility model, comprises insulated substrate 1, and described insulated substrate 1 two sides is respectively equipped with positive electrode conducting layer 1a and negative conducting layer 1b, positive and negative electrode conductive layer 1a, and 1b is connected with external drive power pack; Wherein circumferentially be intervally distributed with some anodal conductive part 1c that cooperatively interact and negative pole conductive part 1d in edge, side plate face edge at insulated substrate 1, each anodal conductive part 1c is connected with positive electrode conducting layer 1a, each negative pole conductive part 1d is connected with negative conducting layer 1b, the positive and negative electrode conductive part 1c respectively cooperatively interacting, 1d connects with electric device with corresponding outside respectively.Meanwhile, for convenience of assembling, at positive and negative electrode conductive part 1c, insulated substrate 1 edge that 1d is corresponding is equipped with and connects breach 1g, respectively connects breach 1g and is conducted with corresponding anodal conductive part 1c or negative pole conductive part 1d; Connect breach 1g corresponding with the outside both positive and negative polarity conductive plate with electric device.The shape that connects breach 1g can be other shapes such as arc, semicircle be even square, is preferably semicircle in the present embodiment.

Particularly, in the present embodiment, the positive and negative electrode conductive part 1c cooperatively interacting, 1d is arranged on the insulated substrate 1 plate face edge at negative conducting layer 1b place, each negative pole conductive part 1d and negative conducting layer 1b conducting respectively; Between each anodal conductive part 1c and negative conducting layer 1b, be insulating regions, between each anodal conductive part 1c and positive electrode conducting layer 1a, be equipped with the first conductive structure 1h, each anodal conductive part 1c is connected conducting with positive electrode conducting layer 1a by the first corresponding conductive structure 1h.Described the first conductive structure 1h is made up of the conductive layer that runs through the conductive hole of insulated substrate 1 and be arranged on conductive hole inwall, the anodal conductive part 1c of conductive layer conducting and positive electrode conducting layer 1a.Simultaneously, on the insulated substrate 1 plate face at negative conducting layer 1b place, be provided with the cathode conductive disk 2 and the anodal conductive plate 3 that is connected external drive power pack positive pole that connect external drive power pack negative pole, cathode conductive disk 2 is connected conducting with negative conducting layer 1b, anodal conductive plate 3 and negative conducting layer 1b mutually insulated; Described anodal conductive plate 3 is connected conducting by the second conductive structure 4 with positive electrode conducting layer 1a.The second conductive structure 4 is made up of the conductive layer that runs through the conductive hole of insulated substrate 1 and be arranged on conductive hole inwall, the anodal conductive plate 3 of conductive layer conducting and positive electrode conducting layer 1a.

Certainly, the first conductive structure 1h and the second conductive structure 4 can be also other conductive structures, such as, in hole, fill out the conventional electrically conducting manners such as tin, inner hole deposition copper, conductive pin.

In addition, be provided with locating hole 1e and wire through-hole 1f on insulated substrate 1, these structures are not essential, according to different installation requirement choice for uses.

Embodiment 2

Consult shown in Fig. 1 to Fig. 4, a kind of LED light source of the present utility model, comprise heat sink 5, wherein simultaneously be provided with driving power box 6 at heat sink 5, between driving power box 6 and heat sink 5, be provided with conductive plate, between conductive plate and heat sink 5, be provided with insulating barrier 7, on the heat sink 5 of driving power box 6 sides, edge is circumferentially distributed with some light source modules 8; Described conductive plate comprises insulated substrate 1, be respectively equipped with positive electrode conducting layer 1a and negative conducting layer 1b on insulated substrate 1 two sides, positive and negative electrode conductive layer 1a, 1b is connected with driving power box 6, at insulated substrate 1 edge, along being circumferentially intervally distributed with some anodal conductive part 1c that cooperatively interact and negative pole conductive part 1d, each anodal conductive part 1c is connected with positive electrode conducting layer 1a, and each negative pole conductive part 1d is connected with negative conducting layer 1b, each light source module 8 and corresponding positive and negative electrode conductive part 1c, 1d connects; Be provided with some magnetic structures 9 at heat sink 5 another sides, between heat sink 5 and to be installed, be connected by magnetic structure 9 intervals, the spacing between heat sink 5 and to be installed is 2～10mm.In the present embodiment, magnetic structure 9 is made up of magnet protective cover 11 and the first magnet 12 being arranged in magnet protective cover 11.Spacing between heat sink 5 and to be installed is the thickness of whole magnetic structure 9, so just can, in convenient installation, control exactly again installing space.

Particularly, in the present embodiment, described light source module 8 by substrate 8a, be distributed in the LED chip 8b on substrate 8a and be arranged on substrate 8a wherein positive terminal 8c and the anode connector 8d of one end close end form, positive and negative electrode joint 8c, 8d is connected with each LED chip 8b respectively; Described positive and negative electrode joint 8c, 8d respectively with corresponding positive and negative electrode conductive part 1c, 1d is corresponding to be connected.Adaptably, in the present embodiment, the thickness of the thickness of insulating barrier 7 and substrate 8a adapts; Conductive plate edge is pressed on substrate 8a edge close end; At positive and negative electrode conductive part 1c, insulated substrate 1 edge that 1d is corresponding is equipped with and connects breach 1g, respectively connects breach 1g and is conducted with corresponding anodal conductive part 1c or negative pole conductive part 1d; Connect breach 1g and corresponding positive and negative electrode joint 8c, 8d is corresponding respectively.By above-mentioned this structure, semicircular connection breach 1g just with corresponding positive and negative electrode joint 8c, 8d correspondence, can adopt automation to produce like this, not only simple in structure but also working effect is very high.

For making light fixture compact overall structure, reducing exposing of circuit, on heat sink 5, insulated substrate 1 and the corresponding position of insulating barrier 7, be equipped with locating hole 1e and wire through-hole 1f, outer lead is sequentially through being connected with the driver element in driving power box 6 after heat sink 5, insulating barrier 7 and insulated substrate 1.

Meanwhile, in the present embodiment, the positive and negative electrode conductive part 1c cooperatively interacting, 1d is arranged on the insulated substrate 1 plate face edge at negative conducting layer 1b place, each negative pole conductive part 1d and negative conducting layer 1b conducting respectively; Between each anodal conductive part 1c and positive electrode conducting layer 1a, be equipped with the first conductive structure 1h, each anodal conductive part 1c is connected conducting with positive electrode conducting layer 1a by the first corresponding conductive structure 1h; Described the first conductive structure 1h is made up of the conductive layer that runs through the conductive hole of insulated substrate 1 and be arranged on conductive hole inwall, the anodal conductive part 1c of conductive layer conducting and positive electrode conducting layer 1a.Further, on the insulated substrate 1 plate face at negative conducting layer 1b place, be provided with the cathode conductive disk 2 and the anodal conductive plate 3 that is connected driving power box 6 positive poles that connect driving power box 6 negative poles, cathode conductive disk 2 is connected conducting with negative conducting layer 1b, anodal conductive plate 3 and negative conducting layer 1b mutually insulated; Described anodal conductive plate 3 is connected conducting by the second conductive structure 4 with positive electrode conducting layer 1a.Described the second conductive structure 4 is made up of the conductive layer that runs through the conductive hole of insulated substrate 1 and be arranged on conductive hole inwall, the anodal conductive plate 3 of conductive layer conducting and positive electrode conducting layer 1a.In the present embodiment, between driving power box 6 negative poles and cathode conductive disk 2 and between driving power box 6 positive poles and anodal conductive plate 3, connect by conductive pole, first conductive pole is welded on conductive plate, then other end wiring board welding with its internal drive power module through driving power box 6, so not only conducts electricity stable connection but also connected mode simple and convenient.

Further, consult shown in Fig. 5 and Fig. 6, driving power box 6 is connected with binding post 14, and binding post 14 is connected with external power source; Described binding post 14 is mainly made up of insulation wire holder 14a, the insulation protective hood 14c that is arranged on the insulation position seat 14b of insulation wire holder 14a bottom and is located at insulation wire holder 14a periphery; On insulation wire holder 14a, be provided with some wiring through holes, in each wiring through hole, be provided with contact tube, the driving power in driving power box 6 passes through contact tube conducting in being located in corresponding wiring through hole with the power line of external power source; Described insulation protective hood 14c both sides are provided with the through wires hole 14d corresponding with insulation wire holder 14a, and described insulation protective hood 14c is connected with insulation position seat 14b; Be provided with elasticity on the peristome end face of both sides along its length at insulation protective hood 14c and hook 14e, on insulation position seat 14b, be provided with elasticity and hook 14e positioning through hole 14f one to one, described insulation protective hood 14c and insulation position seat 14b hook 14e by elasticity and positioning through hole 14f is connected; Described insulation wire holder 14a is provided with the installing hole 14g that runs through bottom, is provided with mounting groove 14h in the insulation wire holder 14a bottom of installing hole 14g periphery, is provided with the second magnet 14i in described mounting groove 14h.By binding post 14 is set, not only can play the effect of insulation, and very convenient when dismounting, only need to disconnect being connected of binding post 14 and external power source, can realize very quickly the dismounting of lamp main body.

LED light source of the present utility model, is mainly used in substituting existing ceiling lamp light source, to reaching easy for installation, energy-saving and emission-reduction, long service life, object that lighting effect is good.Consult shown in Fig. 7, when installation, first the light source in original lamp affixed to the ceiling is removed, then respectively heat sink 5 and binding post 14 are adsorbed on original mounting base by the first magnet 12 and the second magnet 14i, mounting base described in the present embodiment is iron plate, and therefore light source of the present utility model can directly adsorb installation.Then original outside mains supply is penetrated in contact tube and lock and complete the work of changing light source.Finally cover lampshade and complete whole installment work.Whole installation process is very convenient quick.Adopt this Installation Modes, follow-up maintenance, replacing are all very convenient.

As everyone knows, LED light source is most important in installing is exactly heat radiation.Therefore in existing LED light source is installed, mainly contain two kinds of mounting means, a kind of is that LED light source is close to to be installed above to ensure best heat transfer effect, this mounting means, is generally applicable to indoor location, but in the time that light source works long hours, because contact area is limited, heat conduction speed is limited, also there is the fast not shortcoming of heat-transfer rate, cause LED light source heat to shed in time, affect the service life of LED light source thereby make LED light source central temperature increase; Another kind is that LED light source is suspended in midair away to be installed, to reach the object of heat radiation by cross-ventilation, this structure is generally applicable to outdoor mounted, but in the time that not convection current of outdoor air or convection current are weak, the radiating effect of LED light source is also just obviously affected, this mounting means is subject to the impact of external environment condition very much, and light fixture is unstable service life.And the utility model is in conjunction with the concrete condition of lamp affixed to the ceiling, by LED light source and to be installed, the spacing between heat sink 5 and mounting base remains on 2～10mm, forms stable thermal convection current space originally.Adopt this structure, not only ensure original area of dissipation, and by the effect of thermal convection current, using mounting base as additional cooler, between heat sink 5 and mounting base, carry out convection current heat conduction by the air in light fixture dexterously, make mounting base participate in the area of heat conduction, much larger than the area of heat sink 5, this just makes the area of dissipation of whole LED light fixture significantly expand, and radiating efficiency significantly improves, thereby significantly extended the service life of light fixture.In addition, the 2mm of spacing lower limit, can also ensure heat sink 5 back sides winding displacement easily.

Embodiment 3

Consult shown in Fig. 8, a kind of LED light source of the present utility model, its structure is substantially the same manner as Example 2, and difference is, and described magnetic structure 9 absorption are connected with magnetic base plate 10, and the spacing between described heat sink 5 and magnetic base plate 10 is 2～10mm.This structure is mainly to consider when the mounting base of original lamp affixed to the ceiling is plastic material to adsorb magnet.Therefore need to increase a magnetic base plate 10.

Consult shown in Fig. 9 to Figure 11, in order to further facilitate installation and the demolition and maintenance of light fixture, be provided with the terminal fixed strip 13 of strip at magnetic base plate 12 edges, at least one side of described terminal fixed strip 13 is interval with the arc groove 13a of mutual correspondence along its length.Two sides at terminal fixed strip 13 in the present embodiment are all provided with arc groove 13a.This structure, can select according to concrete needs the length of terminal fixed strip 13, if long, can directly break disconnected or one section of terminal fixed strip 13 of bending.

Consult shown in Figure 12, when installation, first magnetic base plate is screwed on the mounting base of original lamp affixed to the ceiling, follow-up installation procedure is identical with embodiment 1.The first magnet 12 is adsorbed on magnetic base plate 10, and the second magnet 14i is adsorbed on terminal fixed strip 13.The rational length of terminal fixed strip 13, does not only affect the appearance but also do not affect use.

Experimental example

Choose spacing between heat sink 5 and magnetic base plate 10 below and be each three of the light fixture of 2mm, 5mm, 8mm, 10mm, five kinds of specifications of 12mm, under equal environmental condition, measure light fixture lamp pearl, lamp plate, radiator and the temperature variations of magnetic base plate in 49 hours, and by openly as follows to maximum temperature, minimum temperature and the mean temperature of each specification in record.Because the temperature of light fixture can not change with regard to basicly stable after 48 hours, therefore only test the temperature conditions that can understand light fixture for 49 hours.Its test result is as follows:

Table 1 spacing is the light fixture of 12mm

Table 2 spacing is the light fixture of 2mm

Table 2 spacing is the light fixture of 5mm

Table 2 spacing is the light fixture of 8mm

Table 2 spacing is the light fixture of 10mm

From experiment, under square one, light fixture of the present utility model and existing conventional lamp now than, lamp pearl temperature and substrate temperature are all lower, and the temperature of heat sink and magnetic base plate is generally all higher, especially magnetic base plate.The structure that this has just proved to adopt the utility model light fixture, in the reasonable distance of heat sink and magnetic base plate, can effectively reduce the temperature of lamp interior, also proves that the cooling-down effect that under reasonable distance, thermal convection current brings is very significant simultaneously.

Above illustrated embodiment is preferred embodiments of the present utility model, only be used for facilitating explanation the technical solution of the utility model, not the utility model is done to any pro forma restriction, any the technical staff in the technical field, if not departing from the scope of technical characterictic that the utility model is carried, utilize technology contents that the utility model discloses to do the local equivalent embodiment that changes or modify, and do not depart from the content of the utility model technical characterictic, all still belong in the scope of the utility model technical characterictic.

Claims (10)

1. a conductive plate, comprise insulated substrate (1), it is characterized in that, described insulated substrate (1) two sides is respectively equipped with positive electrode conducting layer (1a) and negative conducting layer (1b), positive and negative electrode conductive layer (1a, 1b) is connected with external drive power pack; Wherein circumferentially be intervally distributed with some anodal conductive parts (1c) that cooperatively interact and negative pole conductive part (1d) in edge, side plate face edge at insulated substrate (1), each anodal conductive part (1c) is connected with positive electrode conducting layer (1a), each negative pole conductive part (1d) is connected with negative conducting layer (1b), the positive and negative electrode conductive part (1c, 1d) respectively cooperatively interacting connects with corresponding outside electric device respectively.

2. conductive plate according to claim 1, it is characterized in that, at positive and negative electrode conductive part (1c, 1d) corresponding insulated substrate (1) edge is equipped with and connects breach (1g), respectively connects breach (1g) and is conducted with corresponding anodal conductive part (1c) or negative pole conductive part (1d); Connect breach (1g) corresponding with the outside both positive and negative polarity conductive plate with electric device.

3. conductive plate according to claim 1, it is characterized in that, positive and negative electrode conductive part (the 1c cooperatively interacting, 1d) be arranged on insulated substrate (1) the plate face edge at negative conducting layer (1b) place, the conducting respectively of each negative pole conductive part (1d) and negative conducting layer (1b); Between each anodal conductive part (1c) and positive electrode conducting layer (1a), be equipped with the first conductive structure (1h), each anodal conductive part (1c) is connected conducting with positive electrode conducting layer (1a) by corresponding the first conductive structure (1h); Described the first conductive structure (1h) is made up of the conductive layer that runs through the conductive hole of insulated substrate (1) and be arranged on conductive hole inwall, conductive layer conducting anodal conductive part (1c) and positive electrode conducting layer (1a).

4. conductive plate according to claim 1, it is characterized in that, on insulated substrate (1) the plate face at negative conducting layer (1b) place, be provided with the cathode conductive disk (2) and the anodal conductive plate (3) that is connected external drive power pack positive pole that connect external drive power pack negative pole, cathode conductive disk (2) is connected conducting with negative conducting layer (1b), anodal conductive plate (3) and negative conducting layer (1b) mutually insulated; Described anodal conductive plate (3) is connected conducting by the second conductive structure (4) with positive electrode conducting layer (1a); Described the second conductive structure (4) is made up of the conductive layer that runs through the conductive hole of insulated substrate (1) and be arranged on conductive hole inwall, conductive layer conducting anodal conductive plate (3) and positive electrode conducting layer (1a).

5. a LED light source, comprise heat sink (5), it is characterized in that, wherein simultaneously be provided with driving power box (6) at heat sink (5), between driving power box (6) and heat sink (5), be provided with conductive plate, between conductive plate and heat sink (5), be provided with insulating barrier (7), upper along being circumferentially distributed with some light source modules (8) at the heat sink (5) of driving power box (6) side, described conductive plate comprises insulated substrate (1), be respectively equipped with positive electrode conducting layer (1a) and negative conducting layer (1b) on insulated substrate (1) two sides, just, negative conducting layer (1a, 1b) be connected with driving power box (6), circumferentially be intervally distributed with some anodal conductive parts (1c) that cooperatively interact and negative pole conductive part (1d) on edge, insulated substrate (1) edge, each anodal conductive part (1c) is connected with positive electrode conducting layer (1a), each negative pole conductive part (1d) is connected with negative conducting layer (1b), each light source module (8) with corresponding just, negative pole conductive part (1c, 1d) connect, be provided with some magnetic structures (9) at heat sink (5) another side, between heat sink (5) and to be installed, be connected by magnetic structure (9) interval, the spacing between heat sink (5) and to be installed is 2～10mm.

6. LED light source according to claim 5, it is characterized in that, described magnetic structure (9) absorption is connected with magnetic base plate (10), and the spacing between described heat sink (5) and magnetic base plate (10) is 2～10mm; Magnetic structure (9) is made up of magnet protective cover (11) and the first magnet (12) of being arranged in magnet protective cover (11).

7. LED light source according to claim 5, it is characterized in that, described light source module (8) by substrate (8a), be distributed in the LED chip (8b) on substrate (8a) and be arranged on substrate (8a) that wherein the positive terminal of one end close end (8c) and anode connector (8d) form, positive and negative electrode joint (8c, 8d) is connected with each LED chip (8b) respectively; Described positive and negative electrode joint (8c, 8d) respectively with the corresponding corresponding connection of positive and negative electrode conductive part (1c, 1d); The thickness of the thickness of described insulating barrier (7) and substrate (8a) adapts; Conductive plate edge is pressed on substrate (8a) edge close end; At positive and negative electrode conductive part (1c, 1d) corresponding insulated substrate (1) edge is equipped with and connects breach (1g), respectively connects breach (1g) and is conducted with corresponding anodal conductive part (1c) or negative pole conductive part (1d); Connect breach (1g) corresponding respectively with corresponding positive and negative electrode joint (8c, 8d).

8. LED light source according to claim 5, it is characterized in that, positive and negative electrode conductive part (the 1c cooperatively interacting, 1d) be arranged on insulated substrate (1) the plate face edge at negative conducting layer (1b) place, the conducting respectively of each negative pole conductive part (1d) and negative conducting layer (1b); Between each anodal conductive part (1c) and positive electrode conducting layer (1a), be equipped with the first conductive structure (1h), each anodal conductive part (1c) is connected conducting with positive electrode conducting layer (1a) by corresponding the first conductive structure (1h); Described the first conductive structure (1h) is made up of the conductive layer that runs through the conductive hole of insulated substrate (1) and be arranged on conductive hole inwall, conductive layer conducting anodal conductive part (1c) and positive electrode conducting layer (1a).

9. LED light source according to claim 5, it is characterized in that, on insulated substrate (1) the plate face at negative conducting layer (1b) place, be provided with cathode conductive disk (2) the anodal conductive plate (3) anodal with being connected driving power box (6) that connects driving power box (6) negative pole, cathode conductive disk (2) is connected conducting with negative conducting layer (1b), anodal conductive plate (3) and negative conducting layer (1b) mutually insulated; Described anodal conductive plate (3) is connected conducting by the second conductive structure (4) with positive electrode conducting layer (1a); Described the second conductive structure (4) is made up of the conductive layer that runs through the conductive hole of insulated substrate (1) and be arranged on conductive hole inwall, conductive layer conducting anodal conductive plate (3) and positive electrode conducting layer (1a).

10. LED light source according to claim 6, is characterized in that, described driving power box (6) is connected with binding post (14), and binding post (14) is connected with external power source; Described binding post (14) mainly by insulation wire holder (14a), be arranged on the insulation position seat (14b) of insulation wire holder (14a) bottom and be located at the peripheral insulation protective hood (14c) of insulation wire holder (14a) and form; On insulation wire holder (14a), be provided with some wiring through holes, in each wiring through hole, be provided with contact tube, the driving power in driving power box (6) passes through contact tube conducting in being located in corresponding wiring through hole with the power line of external power source; Described insulation protective hood (14c) both sides are provided with the through wires hole (14d) corresponding with insulation wire holder (14a), and described insulation protective hood (14c) is connected with insulation position seat (14b); Be provided with elasticity on the peristome end face of both sides along its length at insulation protective hood (14c) and hook (14e), on insulation position seat (14b), be provided with elasticity and hook (14e) positioning through hole (14f) one to one, described insulation protective hood (14c) and insulation position seat (14b) hook (14e) by elasticity and positioning through hole (14f) is connected; Described insulation wire holder (14a) is provided with the installing hole (14g) that runs through bottom, insulation wire holder (14a) bottom peripheral at installing hole (14g) is provided with mounting groove (14h), is provided with the second magnet (14i) in described mounting groove (14h).