CN105650526A - Optical semiconductor illumination equipment - Google Patents

Abstract

The invention provides optical semiconductor illumination equipment. The equipment comprises a first light emitting block, a wiring box and at least one second light emitting block, wherein the first light emitting block includes one or more first light emitting modules; the wiring box is formed on one side surface of the first light emitting block, and is fastened to the terminal part of a column; the second light emitting block is placed on the other side surface of the first light emitting block, and includes one or more second light emitting modules; the first and second light emitting modules are provided with one or more optical semiconductor devices on one sides, and are provided with multiple heat dissipation fins on the other sides; and the heat dissipation fins are accommodated in the first and second light emitting blocks, and are formed in the coupling direction of the second light emitting blocks and the first light emitting blocks to realize excellent drainage performance, simple assembly and fastening, excellent heat dissipation efficiency and needed luminous flux control.

Description

Optical semiconductor lighting apparatus

Technical field

The present invention relates to optical semiconductor lighting apparatus (opticalsemiconductorlightingApparatus), and more particularly relate to and can realize good drainage (drainage) performance, simpleAssembling and fastening, good radiating efficiency and the desired control to luminous flux (luminousflux)Optical semiconductor lighting apparatus.

Background technology

For example light emitting diode (lightemittingdiode, LED) or laser diode (laserdiode,Etc. LD) optical semiconductor device due to incandescent lamp (incandescentlamp) or fluorescent lamp (fluorescentLamp) advantages such as such as low-power consumption, long-life, high-durability and good brightness have been comparedReceive increasing concern.

Be different from by argon gas (argongas) and poisonous mercury are injected into manufacture in glass tube glimmeringLight modulation or mercury lamp (mercurylamp) optical semiconductor device does not use the material poisonous to environment, and thenProvide ecological friendly (eco-friendly) product.

In particular, use optical semiconductor device as the lighting apparatus of light source recently for outdoor viewIllumination (landscapelighting) or security personnel, and therefore require easily assembling and install. In addition, illuminationEquipment is to use in being exposed to air, and therefore must consider that drainage performance is subject to prevent electric assemblyTo the direct impact of moisture (moisture).

In addition, use optical semiconductor device as these lighting apparatus of light source need can be in fault andWhen malfunctioning, change or repair.

Summary of the invention

Technical problem

Imagined the present invention and solved these problems of the prior art, and the present invention aims to provide and can realizeGood drainage performance, simply assembling and fastening, good radiating efficiency and desired to luminous fluxThe optical semiconductor lighting apparatus of control.

Technical solution

According to an aspect of the present invention, a kind of optical semiconductor lighting apparatus comprises: the first light-emitting block,Comprise one or more the first light emitting module; Terminal box, is formed at a side surface of described the first light-emitting blockGo up, and be fastened to the end portion of post; And at least one second light-emitting block, be placed in described firstOn the opposite side surface of light piece, and comprise one or more the second light emitting module, wherein said first and secondLight emitting module is formed with one or more optical semiconductor device in their side, and at they anotherIn side, be formed with multiple radiating fins, and described radiating fin is received in described the first and second light-emitting blocksAnd form along the direction of described the second light-emitting block and described the first light-emitting block coupling.

The end portion of post can predetermined angle tilt with respect to post.

Described the second light-emitting block can be along the parallel side of the direction being formed with the described end portion of described postTo being coupled to described the first light-emitting block.

The first light-emitting block can comprise a pair of first side of aiming at and facing with each other with two side surfaces of terminal boxWall, and the first lid of the upper end of connection the first side wall.

The first light emitting module can be arranged between the first side wall.

Described optical semiconductor lighting apparatus can further comprise: the first flank, along described first lidTwo edges are projected into predetermined altitude towards described the first light emitting module; And first excision groove, describedThe central part office of the first flank is formed as circular shape, and wherein interconnection line can be arranged to through describedOne excision groove.

Described optical semiconductor lighting apparatus can further comprise multiple the first ventilation slots, with constant interval shapeBe formed in the both sides of described the first lid.

Described the first ventilation slot can form along the vertical direction of the direction being formed with described radiating fin.

Described optical semiconductor lighting apparatus can further comprise: at least two the firstth districts, and described firstDistrict states in place the first ventilation slot and is formed as through described the first lid; And one or more cable fixing head, peaceBe placed on the opposite side of described the first light emitting module and be electrically connected to described the first light emitting module, wherein saidCable fixing head can be arranged as the inner surface in the face of described the first lid between described the firstth district.

Described optical semiconductor lighting apparatus can further comprise: the firstth district, states in described the first place, districtThe first ventilation slot is formed as through described the first lid; And at least one cable fixing head, described in being placed inOn the opposite side of the first light emitting module and be electrically connected to described the first light emitting module, wherein said cable is fixedHead is arranged as the inner surface in the face of described the first lid except described the firstth district.

Described optical semiconductor lighting apparatus can further comprise: the first gripper shoe, is placed in described firstIn the lower surface of light-emitting block and be formed with the first binding groove, described the first light emitting module is fixed to describedOne binding groove.

One or more first binding groove can be formed as through described the first gripper shoe.

Described the second light-emitting block can comprise: a pair of the second sidewall, and with two side tables of described the first light-emitting blockFace accurate and face with each other; And second lid, connect the upper end of described the second sidewall.

The second light emitting module can be arranged between the second sidewall.

Described optical semiconductor lighting apparatus can further comprise: the second flank, along described second lidTwo edges are projected into predetermined altitude towards described the second light emitting module; And second excision groove, describedThe central part office of the second flank is formed as circular shape, and wherein interconnection line can be arranged to through describedTwo excision grooves.

Described optical semiconductor lighting apparatus can further comprise multiple the second ventilation slots, with constant interval shapeBe formed in the both sides of described the second lid.

Described the second ventilation slot can form along the vertical direction of the direction being formed with described radiating fin.

Described optical semiconductor lighting apparatus can further comprise: at least two Second Regions, and described secondDistrict states in place the second ventilation slot and is formed as through described the second lid; And one or more cable fixing head, peaceBe placed on the opposite side of described the second light emitting module and be electrically connected to described the second light emitting module, wherein saidCable fixing head can be arranged as the inner surface in the face of described the second lid between described Second Region.

Described optical semiconductor lighting apparatus can further comprise: Second Region, state in place, described Second RegionThe second ventilation slot is formed as through described the second lid; And at least one cable fixing head, described in being placed inOn the opposite side of the second light emitting module and be electrically connected to described the second light emitting module, wherein said cable is fixedHead is arranged as the inner surface in the face of described the second lid except described Second Region.

Described optical semiconductor lighting apparatus can further comprise: the second gripper shoe, is placed in described secondIn the lower surface of light-emitting block and be formed with the second binding groove through wherein, described the second light emitting module is solidSurely arrive described the second binding groove.

Described in one or more, the second binding groove can be formed as through described the second gripper shoe.

Described optical semiconductor lighting apparatus can further comprise: through hole, is formed as through described terminal boxA side surface; And fixed cell, to inserting the described terminal part through the described post of described through holeThe outer peripheral surface dividing is fixed.

According to a further aspect in the invention, a kind of optical semiconductor lighting apparatus comprises: light-emitting block, described inLight-emitting block is included in and in a side, is formed with at least one optical semiconductor device and on opposite side, is formed with manyThe light emitting module of individual radiating fin, the pair of sidewalls facing with each other, connects the lid of the upper end of described sidewall,And being formed at multiple ventilation slots of the both sides of described lid with constant interval, wherein said lid comprises: multipleGroove district, states ventilation slot in place, described groove district and is formed as through described lid; And one or more cable is fixedHead, is placed on the opposite side of described light emitting module and is electrically connected to described light emitting module, and described cableGland is arranged as the inner surface in the face of the described lid between described groove district.

Described ventilation slot can form along the vertical direction of the direction being formed with described radiating fin.

Described ventilation slot can be arranged on the described opposite side of described light emitting module.

Advantageous effects

Optical semiconductor lighting apparatus has the following advantages according to an embodiment of the invention.

The first light-emitting block is coupled in the structure of a side of terminal box therein, at least one second light-emitting blockBe attached to a side of the first light-emitting block, and radiating fin is formed in one direction and is embedded in respectively firstOn the upper surface of the first and second light emitting modules in the second light-emitting block, described radiating fin is alongThe direction of two light-emitting blocks and the coupling of the first light-emitting block forms, thereby strengthens drainage performance and therefore prevent by wettingThat gas or foreign substance cause is malfunctioning, electric leakage and electric shock.

In addition, one or more first and second light-emitting block can removably be attached to a side of terminal box,Thereby realize simple assembling and fastening.

In addition, the first and second light emitting modules of proper number can be arranged in respectively the first and second light-emitting blocksIn, thereby realize the desired control to luminous flux.

Brief description of the drawings

Fig. 1 is the bottom showing when from the terminal box as primary clustering of the present invention (junctionbox)When surface is watched, the total of optical semiconductor lighting apparatus according to an embodiment of the invention is saturatingView.

Fig. 2 shows optical semiconductor according to an embodiment of the invention in the time watching from the viewpoint A of Fig. 1The plane of the total of lighting apparatus.

Fig. 3 shows the conduct primary clustering of optical semiconductor lighting apparatus according to an embodiment of the inventionThe decomposition diagram of total of the first and second light-emitting blocks.

Fig. 4 shows in the time watching from the viewpoint B of Fig. 1 wherein as first of primary clustering of the present inventionBe fastened to the sectional view of the state of the first and second gripper shoes with the second light emitting module.

Fig. 5 (a) is to show when wherein arranging as of the present invention in the time that the viewpoint C of Fig. 1 watches to Fig. 5 (f)The upward view of the various embodiment of the first and second light emitting modules of primary clustering.

Fig. 6 shows that the end portion of its center pillar is coupled to as this in the time watching from the viewpoint B of Fig. 1The partial section of the state of the terminal box of bright primary clustering.

Detailed description of the invention

To understand above and other side of the present invention from the following description of following examples of providing by reference to the accompanying drawingsFace, feature and advantage.

But should be appreciated that, the invention is not restricted to following examples and can embody by different way.

Provide embodiment to provide to complete announcement of the present invention and as those skilled in the art herein,Provide detailed understanding of the present invention.

Scope of the present invention should only be subject to the restriction of appended claims and equivalent thereof.

Therefore, by the detailed description of omitting the clear details of those skilled in the art to avoid thisBright unclear explaination.

In addition, same reference numerals will run through description and represent same components, and accompanying drawing and wherein mention and (makingWith) term be only provide in order to describe the object of specific embodiment and setly do not limit the present invention.

As used herein, the set plural form that also comprises of singulative " " and " described ", unless onBelow clearly instruction in addition. To further understand, term " comprises " and/or " comprising " specifies institute oldState the existence of feature, assembly and/or operation, but do not get rid of one or more further feature, assembly and/or operationExistence or interpolation.

Unless define in addition, otherwise all terms used herein (comprising technology and scientific terminology) hadConventionally the identical meaning of meaning of understanding with those skilled in the art in the invention.

To further understand, the term for example defining in common dictionary should be interpreted as having with it on ruleThe consistent meaning of meaning in the context of model and correlation technique, and be not taken in idealized or too formalMeaning on explain, unless herein clearly so definition.

Hereinafter, describe example embodiment of the present invention in detail with reference to accompanying drawing.

Fig. 1 is the bottom showing when from the terminal box as primary clustering of the present invention (junctionbox)When surface is watched, the total of optical semiconductor lighting apparatus according to an embodiment of the invention is saturatingView, and Fig. 2 shows that when watch from the viewpoint A of Fig. 1 optics is partly according to an embodiment of the inventionThe plane of the total of conductor lighting apparatus.

Fig. 3 shows the conduct primary clustering of optical semiconductor lighting apparatus according to an embodiment of the inventionThe decomposition diagram of total of the first and second light-emitting blocks.

Fig. 4 shows in the time watching from the viewpoint B of Fig. 1 wherein as first of primary clustering of the present inventionBe fastened to the sectional view of the state of the first and second gripper shoes with the second light emitting module, and Fig. 5 (a) is to Fig. 5 (f)To show when wherein arranging in the time that the viewpoint C of Fig. 1 watches as first and the of primary clustering of the present inventionThe upward view of the various embodiment of two light emitting modules.

Fig. 6 shows that the end portion of its center pillar is coupled to as this in the time watching from the viewpoint B of Fig. 1The sectional view of the state of the terminal box of bright primary clustering.

For reference, reference number in Fig. 1 390 represents to open or close for internal checkOpening/closing parts.

The first light-emitting block B1 comprises one or more first light emitting module 100 that serves as light source.

Terminal box J is placed on a side surface of the first light-emitting block B1, and is fastened to the end of post 400Part 410 is to be connected to power supply.

At least one second light-emitting block B2 is placed on the opposite side surface of the first light-emitting block B1, and comprisesServe as one or more second light emitting module 200 of light source together with the first light emitting module 100.

The first light emitting module 100 and the second light emitting module 200 are formed with one or more in their sideOptical semiconductor device 600, and on their opposite side, be formed with multiple radiating fin (heatdissipationfin)510。

Radiating fin 510 is received in the first light-emitting block B1 and the second light-emitting block B2.

Radiating fin 510 is to form along the direction of the second light-emitting block B2 and the first light-emitting block B1 coupling,And then it is steady to allow to be incorporated into rainwater or snow-broth in the first light emitting module 100 and the second light emitting module 200Be downward through space therebetween.

Should be appreciated that, below various embodiment and above embodiment can be applicable to the present invention.

What as mentioned above, radiating fin 510 can be along the second light-emitting block B2 and the first light-emitting block B1 couplingDirection forms, and then strengthens drainage efficiency. For this reason, the end portion 410 of post 400 is preferably to be scheduled toAngle tilts with respect to post 400.

That is to say, the end portion 410 of post 400 is along parallel with the direction of the second light-emitting block B2 couplingDirection form.

Therefore, from outside be incorporated into water the first light-emitting block B1 and the second light-emitting block B2, moisture or outsideCarrying out material flows downward along post 400 via the outer peripheral surface of the end portion 410 of post 400.

In addition, by this drainage structure, the second light-emitting block B2 preferably separates predetermined with the first light-emitting block B1Distance (d), to realize steady drainage and the high cooling efficiency of water, moisture or foreign substance.

In addition, by this drainage structure, in the time that multiple the second light-emitting block B2 are attached to the first light-emitting block B1,Some light-emitting blocks that are adjacent to the first light-emitting block B1 in the second light-emitting block B2 are preferably separated from one another, so that realSteady drainage and the high cooling efficiency of existing water, moisture or foreign substance.

As shown in Figure 1, the first light-emitting block B1 comprises and aims at two side surfaces of terminal box J and face each otherRight a pair of the first side wall B11, and the first lid B12 of the upper end of connection the first side wall B11.

The assembly that the first lid B12 protection embeds avoids exterior vibration, and prevents moisture, dust or exoticThe infiltration of matter.

Herein, the first light emitting module 100 is arranged between the first side wall B11.

As shown in Figure 3, the first light-emitting block B1 can further comprise the first flank (rib) B121 andOne excision groove (cutawayslot) B122, in order to be removably coupled to wiring by the first light-emitting block B1Box J and arrange easily interconnection line (interconnectionwire).

That is to say, the first flank B121 along two edges of the first lid B12 towards the first luminous mouldPiece 100 is projected into predetermined altitude.

The first excision groove B122 is formed as circular shape in the central part office of the first flank B121.

Therefore, interconnection line (not shown) can be arranged to through the first excision groove B122.

In order to solve the thermogenetic problem in inside being caused by the first light emitting module 100, the first light-emitting block B1Can further comprise multiple the first ventilation slots 710 that are formed at the both sides of the first lid B12 with constant interval,In order to discharge by nature or forced convertion (convection) heat producing from optical semiconductor device 600.

More particularly, the first lid B12 covers the upper surface of the first light emitting module 100, that is, and and heat radiating finThe top part of sheet 510, and the first ventilation slot 710 is predetermined with two edge separation of the first lid B12In the district of distance, be formed as the shape of slotted hole with constant interval.

The first ventilation slot 710 is to form (ginseng along the vertical direction of the direction being formed with radiating fin 510See the X shown in Fig. 2 and 3 and Y direction).

This of the first ventilation slot 710 is arranged in order to minimize moisture infiltration, and enhancing sealing property, simultaneouslyMaintain heat dispersion.

For maintaining of line interconnection and waterproof sealing, the first light-emitting block B1 can further comprise one or more electricityCable gland (cablegland) 900, described cable fixing head is placed in the another of the first light emitting module 100In one side, the interconnection line that is electrically connected to the first light emitting module 100 is passed wherein.

The district forming through the first lid B12 when the first ventilation slot 710 is set as the first district S1 (seeing Fig. 3)Time, cable fixing head 900 is through being arranged as the inner surface in the face of the lid of first between the first district S1 B12,To be not directly exposed to the moisture of free-falling, for example rainwater or snow-broth, thus can stably use photographExposed installation is standby.

As shown in Figures 3 and 4, the first light-emitting block B1 can further comprise the first gripper shoe 310, in order toNumber by suitable adjustment the first light emitting module 100 comes with wanted level control luminous flux.

The first gripper shoe 310 is placed in the lower surface of the first light-emitting block B1, and through being wherein formed withThe first binding groove 311, the first light emitting modules 100 are fixed to described the first binding groove.

If Fig. 5 (a) is to as shown in Fig. 5 (f), one or more first binding groove 311 can be formed as through firstFagging 310, thus the first light emitting module 100 of wanted number can be fixed to the first binding groove 311, enterAnd realization control to luminous flux with wanted level.

Refer again to Fig. 1, the second light-emitting block B2 comprises with two side surfaces of the first light-emitting block B1 and aims atAnd a pair of the second sidewall B21 facing with each other, and the second lid of the upper end of connection the second sidewall B21B22。

The assembly that the second lid B22 protection embeds avoids exterior vibration, and prevents moisture, dust or exoticThe infiltration of matter.

Herein, the second light emitting module 200 is arranged between the second sidewall B21.

Refer again to as Fig. 3, the second light-emitting block B2 can further comprise the second flank B221 and second and cutExcept groove B222, in order to the second light-emitting block B2 be removably coupled to terminal box J and arrange easily mutuallyLine.

The second flank B221 is outstanding towards the second light emitting module 200 along two edges of the second lid B22To predetermined altitude.

Each in the second excision groove B222 is formed as circular arc in the central part office of the second flank B221Shape.

Therefore, interconnection line can be arranged to through the second excision groove B222.

In order to solve the thermogenetic problem in inside being caused by the second light emitting module 200, the second light-emitting block B2Can further comprise multiple the second ventilation slots 720 that are formed at the both sides of the second lid B22 with constant interval,In order to discharge by nature or forced convertion the heat producing from optical semiconductor device 600.

More particularly, the second lid B22 covers the upper surface of the second light emitting module 200, that is, and and heat radiating finThe top part of sheet 510, and the second ventilation slot 720 is predetermined with two edge separation of the second lid B22In the district of distance, be formed as the shape of slotted hole with constant interval.

The second ventilation slot 720 is to form (ginseng along the vertical direction of the direction being formed with radiating fin 510See the X shown in Fig. 2 and 3 and Y direction).

The layout of the second ventilation slot 720 is permeated in order to minimize moisture, and further strengthens waterproof and sealingPerformance maintains heat dispersion simultaneously.

For the interconnection of line and maintaining of waterproof sealing, the second light-emitting block B2 can further comprise one or moreCable fixing head 900, described cable fixing head is placed on the opposite side of the second light emitting module 200, makesThe interconnection line that must be electrically connected to the second light emitting module 200 passes wherein.

When the second ventilation slot 720 is formed as being set as Second Region S2 (seeing Fig. 3) through the second GaiB22 districtTime, cable fixing head 900 is through being arranged as the inner surface in the face of second between the S2 of Second Region lid B22,To be not directly exposed to the moisture of free-falling, for example rainwater or snow-broth, thus stably use illuminationEquipment.

Refer again to Fig. 3 and 4, the second light-emitting block B2 can further comprise the second gripper shoe 320, in order toNumber by suitable adjustment the second light emitting module 200 comes with wanted level control luminous flux.

The second gripper shoe 320 is placed in the lower surface of the second light-emitting block B2, and is formed with through whereinThe second binding groove 321, the second light emitting modules 200 be fixed to described the second binding groove.

Refer again to Fig. 5 (a) to Fig. 5 (f), described in one or more, the second binding groove 321 can be formed as throughTwo gripper shoes 320, thus the second light emitting module 200 of wanted number is fixed to the second binding groove 321,Therefore with wanted level control luminous flux.

The second gripper shoe 320 is parallel to the first gripper shoe 310 settles, simultaneously with 310 points of the first gripper shoesFrom preset distance (d), thereby implement drainage and heat sinking function.

Therefore, as many first luminous with the first binding groove 311 and the second binding groove 321 by locationModule 100 and the second light emitting module 200 can be controlled the whole luminous flux of lighting apparatus.

Referring to Fig. 1 and 6, optical semiconductor lighting apparatus can further comprise the side surface through terminal box JThe through hole 301 forming, and to inserting the outside through the end portion 410 of the post 400 of through hole 301The fixed cell 350 that peripheral surface is fixed.

That is to say, fixed cell 350 is in order to closely fixedly to have different-diameter and shape of cross sectionThe end portion 410 of post 400. Fixed cell 350 can comprise: the first standing part 351, is formed at and connectsLine box J sentences an edge that is connected to through hole 301, and the end portion 410 of support column 400 outsideOne side of portion's peripheral surface; And second standing part 352, be coupled to two of the first standing part 351Side, and the opposite side of the outer peripheral surface of the end portion 410 of support column 400.

The first standing part 351 comprises on the upper face that is formed at terminal box J protrudingly and has correspondenceIn the positioning recess 351g of the shape of a part of cylindrical outer peripheral surface, and the second fixed partPoints 352 are coupled to the district outside two edges of positioning recess 351g.

The second standing part 352 can comprise: along the district outside two edges of the first standing part 351One or more fixed salient 352p forming, is coupled to a pair of connecting plate of fixed salient 352p352c, and be connected to the end portion 410 of connecting plate 352 and contact stud 400 two endsThe contact chip 352t of the opposite side of outer peripheral surface.

In addition, the second standing part 352 can further comprise: be parallel to connecting plate through contact chip 352tThe fastener hole 352h that 352c forms, and hanging down with the outer peripheral surface of the end portion 410 of post 400In straight direction, be threaded to the multiple column bolts (studbolt) of fastener hole 352h with fixation ends part 410352s。

Column bolt 352s is mechanical component, for passing through at the first standing part 351 and the second standing partThe outer peripheral surface of the end portion 410 of contact stud 400 between 352 and increase fastening force, and increaseFixed position and area.

As mentioned above, embodiments of the invention provide can realize good drainage performance, simply assembling andThe optical semiconductor lighting apparatus of fastening, good radiating efficiency and the desired control to luminous flux.

In addition, be understood by those skilled in the art that, in the feelings that do not depart from the spirit and scope of the present inventionUnder condition, can make various amendments and application.

Claims (25)

1. an optical semiconductor lighting apparatus, is characterized in that comprising:

The first light-emitting block, comprises at least one first light emitting module;

Terminal box, is formed on a side surface of described the first light-emitting block, and is fastened to the terminal part of postPoint; And

At least one second light-emitting block, is placed on the opposite side surface of described the first light-emitting block, and comprisesAt least one second light emitting module,

Wherein said the first and second light emitting modules are formed with one or more optics in their side partly leadsBody device, and on their opposite side, be formed with multiple radiating fins, and described radiating fin is received inIn described the first and second light-emitting blocks and along the side of described the second light-emitting block and described the first light-emitting block couplingTo formation.

2. optical semiconductor lighting apparatus according to claim 1, is characterized in that the institute of described postStating end portion tilts with respect to described post with the angle of being scheduled to.

3. optical semiconductor lighting apparatus according to claim 1, is characterized in that described secondLight piece is coupled to described first along the parallel direction of the direction being formed with the described end portion of described postLight-emitting block.

4. optical semiconductor lighting apparatus according to claim 1, is characterized in that described firstLight piece comprises:

A pair of the first side wall, aims at and faces with each other with two side surfaces of described terminal box; And

First covers, and connects the upper end of described the first side wall.

5. optical semiconductor lighting apparatus according to claim 4, is characterized in that described firstOptical module is arranged between described the first side wall.

6. optical semiconductor lighting apparatus according to claim 4, further comprises:

The first flank, is projected into towards described the first light emitting module along two edges of described the first lid in advanceTake the altitude; And

The first excision groove, is formed as circular shape in the central part office of described the first flank,

Wherein interconnection line is arranged to through described the first excision groove.

7. optical semiconductor lighting apparatus according to claim 4, further comprises:

Multiple the first ventilation slots, are formed at the described first both sides of covering with constant interval.

8. optical semiconductor lighting apparatus according to claim 7, is characterized in that described first is logicalWind groove is to form along the vertical direction of the direction being formed with described radiating fin.

9. optical semiconductor lighting apparatus according to claim 7, further comprises:

At least two the firstth districts, state the first ventilation slot in described the first place, district and are formed as through described firstLid; And

At least one cable fixing head, is placed on the opposite side of described the first light emitting module and is electrically connected toDescribed the first light emitting module,

Wherein said cable fixing head is arranged as the interior table in the face of described the first lid between described the firstth districtFace.

10. optical semiconductor lighting apparatus according to claim 4, further comprises:

The firstth district, states the first ventilation slot and is formed as through described the first lid in described the first place, district; And

At least one cable fixing head, is placed on the opposite side of described the first light emitting module and is electrically connected toDescribed the first light emitting module,

Wherein said cable fixing head is arranged as in the face of in described the first lid except described the firstth districtSurface.

11. optical semiconductor lighting apparatus according to claim 1, further comprise:

The first gripper shoe, is placed in the lower surface of described the first light-emitting block and is formed with the first binding groove,Described the first light emitting module is fixed to described the first binding groove.

12. optical semiconductor lighting apparatus according to claim 11, is characterized in that one or moreThe first binding groove is formed as through described the first gripper shoe.

13. optical semiconductor lighting apparatus according to claim 1, is characterized in that described secondLight-emitting block comprises:

A pair of the second sidewall, aims at and faces with each other with two side surfaces of described the first light-emitting block; And

Second covers, and connects the upper end of described the second sidewall.

14. optical semiconductor lighting apparatus according to claim 13, is characterized in that described secondLight emitting module is arranged between described the second sidewall.

15. optical semiconductor lighting apparatus according to claim 13, further comprise:

The second flank, is projected into towards described the second light emitting module along two edges of described the second lid in advanceTake the altitude; And

The second excision groove, is formed as circular shape in the central part office of described the second flank,

Wherein interconnection line is arranged to through described the second excision groove.

16. optical semiconductor lighting apparatus according to claim 13, further comprise:

Multiple the second ventilation slots, are formed at the described second both sides of covering with constant interval.

17. optical semiconductor lighting apparatus according to claim 16, is characterized in that described secondVentilation slot is to form along the vertical direction of the direction being formed with described radiating fin.

18. optical semiconductor lighting apparatus according to claim 16, further comprise:

At least two Second Regions, state the second ventilation slot in place, described Second Region and are formed as through described secondLid; And

At least one cable fixing head, is placed on the opposite side of described the second light emitting module and is electrically connected toDescribed the second light emitting module,

Wherein said cable fixing head is arranged as the interior table in the face of described the second lid between described Second RegionFace.

19. optical semiconductor lighting apparatus according to claim 13, further comprise:

Second Region, states the second ventilation slot and is formed as through described the second lid in place, described Second Region; And

At least one cable fixing head, is placed on the opposite side of described the second light emitting module and is electrically connected toDescribed the second light emitting module,

Wherein said cable fixing head is arranged as in the face of in described the second lid except described Second RegionSurface.

20. optical semiconductor lighting apparatus according to claim 1, further comprise:

The second gripper shoe, is placed in the lower surface of described the second light-emitting block and is formed with through whereinThe second binding groove, described the second light emitting module is fixed to described the second binding groove.

21. optical semiconductor lighting apparatus according to claim 20, is characterized in that at least oneDescribed the second binding groove is formed as through described the second gripper shoe.

22. optical semiconductor lighting apparatus according to claim 1, further comprise:

Through hole, is formed as a side surface through described terminal box; And

Fixed cell, the outer peripheral table to insertion through the described end portion of the described post of described through holeFace is fixed.

23. 1 kinds of optical semiconductor lighting apparatus, is characterized in that comprising:

Light-emitting block, comprising: in a side, be formed with at least one optical semiconductor device and on opposite sideBe formed with the light emitting module of multiple radiating fins, the pair of sidewalls facing with each other, connects the upper of described sidewallThe lid of end, and be formed at multiple ventilation slots of the both sides of described lid with constant interval,

Wherein said lid comprises: multiple grooves district, states ventilation slot in place, described groove district and is formed as through describedLid; And one or more cable fixing head, be placed on the opposite side of described light emitting module and be electrically connected toDescribed light emitting module, described cable fixing head is in the face of the inner surface of the described lid between described groove district.

24. optical semiconductor lighting apparatus according to claim 23, is characterized in that described ventilationGroove is to form along the vertical direction of the direction being formed with described radiating fin.

25. optical semiconductor lighting apparatus according to claim 23, is characterized in that described ventilationGroove is arranged on the described opposite side of described light emitting module.