五、新型說明: 【新型所屬之技術領域】 [0001] 本創作涉及一種照明裝置,尤其涉及一種模組化照明裝 置。 [先前技術] [0002] 於照明裝置的領域中,傳統照明光源一般為日光燈,其 發光原理為利用電流在氬氣中放電激發水銀蒸氣而產生 紫外線,並令紫外線被磷質層吸收而發出可見光以進行 照明,於使用後期時,因激發狀態逐漸不穩定,使曰光 燈亮度大幅減少,且會有明暗閃爍的現象,若日光燈損 壞破裂,其中的重金屬及水銀蒸氣會對人體及環境造成 危害,另外’日光燈需裝設電子式安定器或高頻點燈器 ,具有啟動速度慢、耗電量高、及發熱量高等缺點,且 隨著節省能源及環保意識的抬頭,發光二極體照明技術 逐漸開始發展應用於燈具照明以取代日光燈,發光二極 體為冷光源,具有體積小、發熱量低(無紫外線輻射)、 耗電量低(低電壓、低電流起動)、壽命長、反應速度快 、環保(对震、耐衝擊、無水銀污染)等優點。 [0003] 習知發光二極體燈具,包括一燈殼、連接於燈殼的一透 光罩、設置於燈殼及透光罩之間的一分隔板、及設置於 分隔板上的一發光二極體模組,發光二極體模組包含一 電路板和分別固接在電路板兩面的散熱器及複數發光二 極體。然而,習知發光二極體燈具在實際使用上仍存在 許多問題點,發光二極體模組固定設置於燈殼及透光罩 組合的内部空間,無法依實際照明需求來隨時擴增或縮 表單编號A0101 第3頁/共25頁 M379717 減發光二極體模組數量,因而大幅降低燈具實用性及彈 性使用範疇,且在生產各種不同規格或功率的燈具時, 需分別開設相應的模具,如此將增加生產成本及製造時 程。 [0004] 有鑑於此,本創作人遂針對上述現有技術,特潛心研究 並配合學理的運用,盡力改善並增進效能,終能提出一 種設計合理且有效的本創作。 【新型内容】 [0005] 本創作的目的,在於提供一種模組化照明裝置,可依實 際照明亮度需求而將裝置作彈性調整組配。 [0006] 為了達到上述目的的技術手段,本創作提供一種模組化 照明裝置,包括一支架結構及複數照明模組;該支架結 構為一U型框體,於該U型框體的開口端向外延伸有一對 軌道;該等照明模組依序串接於該支架結構上,任一該 照明模組包含連接於該軌道的一散熱基座、安置於該散 熱基座底部的一發光二極體組件、及分別固定於該散熱 基座頂部的複數散熱鰭片,任一該散熱鰭片開設有供該 軌道穿設的一缺口。 [0007] 本創作的功效在於,藉由模組化設置,可依週遭環境的 實際照明需求,將裝置作彈性調整組配,而快速組裝出 不同功率的產品,例如縮減照明模組數量而能節省能源 ,或擴增照明模組數量而能加強照明亮度,能大幅降低 模具開設成本,擴展使用範圍及場域,且照明模組為規 格化,其具有互換共用的特性,得以降低存料及庫存, 表單編號A0101 第4頁/共25頁 又利用照明模組串接於轨道上並加以固定,而能增加照 明裝置整體結構的穩固度。 【實施方式】 [0008] 有關本創作的詳細說明及技術内容,配合圖式說明如下 ,然而所附圖式僅提供參考與說明用,並非用來對本創 作加以限制者。 [0009] 本創作涉及一種模組化照明裝置,請參照第一至四圖所 示,該模組化照明裝置包括一支架結構100、複數照明模 組200、至少一蓋板300及複數固定元件400。 [0010] 該支架結構100包含一中空框體110’及一對軌道120、 130 ;該中空框體110’為一U型框體110,該U型框體110 的中空内部空間可提供變壓器、電源線等電氣元件置設 ;該對轨道120、130分別自該U型框體110的底部兩侧向 外延伸成型,更精確地說,該對轨道120、130為於該U型 框體110的開口端向外延伸;另外,在該U型框體110的封 閉端及該對執道120、130的端部分別設有一導槽140。 [0011] 該等照明模組200依序串接於該支架結構100上且彼此緊 靠,任一該照明模組200包含一散熱基座210、一發光二 極體組件220、及複數散熱鰭片230。 [0012] 該散熱基座210連接該對軌道120、130底面,又該散熱 基座210為導熱性良好的元件,其可為鋁基板或銅基板等 ,但不以此些構造為限。 [0013] 該發光二極體組件220安置於該散熱基座210底部,包含 固定於該散熱基座210底面的一電路板221及分別設置於 表單编號A0101 第5頁/共25頁 M379717 該電路板221上且電性連接該電路板221的複數發光二極 體222,該電路板221與該散熱基座210之間可塗佈有導 熱介質以增加熱傳導效能。 [0014] 該等散熱鰭片230分別固定於該散熱基座210頂面的兩端 區域且夾摯該U型框體110,該等散熱鰭片230可以焊接方 式或一體成型方式而連接於該散熱基座210頂面,但不以 此些成型方式為限,該等散熱鰭片230為導熱性良好的元 件,其可為鋁片或銅片等,但不以此些構造為限,任一 該散熱鰭片230開設有供任一該軌道120、130穿設且相 互對應的一缺口 231。 [0015] 另外,該照明模組200除了藉由該等缺口 231而穿接於該 對軌道120、130上,亦使用固定元件將該散熱基座210 與該對軌道120、130緊密連接並令該散熱基座210能定 位,固定元件可為螺絲組件或黏性介質等。 [0016] 該至少一蓋板300封合在該U型框體110的一側邊,該蓋板 300在對應於該等導槽140位置處分別開設有一通孔310 ,該等固定元件400分別穿設該等通孔310而固接於該等 導槽140中,以將該蓋板300貼接於該支架結構100前端 〇 [0017] 該對軌道120、130分別於後端形成有一對擴大部121、 131,當該等照明模組20 0串接於該U型框體110時,該等 照明模組200彼此緊密抵靠,該對擴大部121、131供最 後該照明模組200抵靠,該蓋板300貼接開頭該照明模組 200,以使該等照明模組200夾摯於該蓋板300及該對擴 表單编號A0101 第6頁/共25頁 [0018] 大部121、131之間。 另外,本創作更包括複數照明模組200,,其結構與該等 照明模組2 0 0皆相同,故在此不多作贅述。 [0019] 凊參照第五及六圖所示,本創作可依週遭環境的實際照 明需求,來縮減該等照明模組2〇〇數量而能節省能源,或 擴增該等照明模組2〇〇數量而能加強照明亮度,非常具有 使用彈性,又本創作可作為路燈用途,於該U型框體n〇 中穿設一燈桿而設置於戶外以照明道路。 [0020] 請參照第七及八圖所示,該模組化照明裝置更包括分別 設置於該等照明模組2〇〇兩邊上方的一對遮蔽組件5〇〇, 任一該遮蔽組件500包含一簷板51〇及一支柱52(),該簷 板510—端嵌設於該u型框體11〇上部的該導槽14〇中該 支柱520設置於任一該散熱基座21〇的邊緣,該簷板51〇 另一端則連接該支柱520,以使該簷板51〇懸浮於該等散 熱鰭片230上方,其所能達到的功能為防水防塵避免雨 水或灰塵落至該等散熱鰭片23〇而影響散熱功效。 [0021] 另外,請參照第九圖所示,本創作可作為洗牆燈用途, 該支架結構100更包含一承載座150及連接於該承載座的 一枢轴160,該u型框體11〇後端貫穿開設有供該柩軸16〇 穿設的一樞孔111,以使該U型框體11〇能於該承載座15〇 上框轉’而使該等照明模組200以不同角度照射牆面。 請參照第十圖所示,可將多組照明模組並列以增強照光 亮度及範圍,則本創作更包括一跨接板_及一承載板 700,該跨接板6GG橫跨固接複數支架結制⑽,該承載 表單编號A0101 第7頁/共25頁 [0022] M379717 [0023] [0024] [0025] [0026] [0027] [0028] [0029] 表單編號Α0101 板700橫跨貼接複數承載座150。 請參照第十一圖所示,或者該支架結構1〇〇更包含連接於 該承載座150的一中空管170 ’且該承載座15〇開設有一 穿孔151,以使容納於該U型框體11〇内的電源線穿設該穿 孔151及該中空管170。 請參照第十二圖所示,該承載座15〇亦可樞接於該u型框 體110頂面,即該ϋ型框體11〇頂面凸起延伸有一樞部,該 枢孔111開設於樞部上,該枢軸16〇則穿設於該樞孔in 〇 請參照第十三圖所示,本創作更包括罩蓋該支架結構1〇〇 、該等照明模組200、及該遮蔽組件5〇〇的一外罩800, 且容許該發光二極體組件220外露,則該樞孔in開設於 該外罩800上’該樞轴16〇穿設該樞孔in,以使該外罩 800能於該承載座150上樞轉。 當然’本創作還可有其他多種貪施钩,在不背離本創作 精神及其實質的情況下,熟悉本領域的技術人員當可根 據本創作演化出各種相應的改變和變形,但這些相應的 改變和變形都應屬於本創作所附的申請專利的保護範圍 【圖式簡單說明】 第一圖為本創作的立體分解圖。 第二圖為本創作的立體組合圖。 第二圖為第二圖的另一視角圖。 第8頁/共25頁 M379717 [_]帛四@為本創作的橫向組合别面圖。 [0031]帛五圖為本創作的較少照明模組圖。 剛帛六圖為本創作的較多照明模組圖。 剛第*t®為本創作另—實❹丨的立體分解圖。 [0034] 第人圖為本創作另—實施例的橫向組合剖面圖。 [0035] 第九圖為本創作又一實施例的立體組合圖。 _6]帛十圖為本創作以多組照明模組並列的立體組合圖。 [0037] 第十一圖為本創作承載座連接中空管的立體組合圖。 [0038] 第十一圖為本創作承載座樞接U型框體頂面的立體圖》 [0039] 第十二圖為本創作増設外罩的立體組合圖。 【主要元件符號說明】 [0040] 支架結構1〇〇 U型框體110 中空框體110’ 樞孔111 轨道 120、130 擴大部121、131 導槽140 承載座150 穿孔151 樞抽160 中空管170 表單编號A0101 第9頁/共25頁 M379717 照明模組200、200’ 散熱基座210 發光二極體組件220 電路板221 發光二極體222 散熱鰭片230 缺口 231 蓋板300 通孔310 固定元件400 遮蔽組件500 簷板510 支柱520 跨接板600 承載板700 外罩800 表單编號A0101V. New description: [New technical field] [0001] The present invention relates to a lighting device, and more particularly to a modular lighting device. [Prior Art] [0002] In the field of illumination devices, a conventional illumination source is generally a fluorescent lamp, and the principle of illumination is that an electric current is used to discharge mercury vapor in an argon gas to generate ultraviolet rays, and the ultraviolet rays are absorbed by the phosphor layer to emit visible light. In order to illuminate, in the later stage of use, the brightness of the neon lamp is greatly reduced due to the unstable state of the excitation, and there is a phenomenon of light and dark flicker. If the fluorescent lamp is damaged and broken, the heavy metal and mercury vapor may cause harm to the human body and the environment. In addition, 'the fluorescent lamp needs to be equipped with an electronic ballast or a high-frequency lighting device, which has the disadvantages of slow starting speed, high power consumption, high heat generation, and the light-emitting diode lighting with the energy-saving and environmental awareness rising. The technology is gradually developing and applied to the lighting of lamps to replace fluorescent lamps. The light-emitting diodes are cold light sources, which have small volume, low heat generation (no ultraviolet radiation), low power consumption (low voltage, low current starting), long life, and reaction. Fast, environmentally friendly (shock, impact resistance, mercury-free pollution). [0003] A conventional light-emitting diode lamp includes a lamp housing, a translucent cover connected to the lamp housing, a partition plate disposed between the lamp housing and the transmissive cover, and a partition plate disposed on the partition plate A light-emitting diode module, the light-emitting diode module comprises a circuit board and a heat sink and a plurality of light-emitting diodes respectively fixed on both sides of the circuit board. However, there are still many problems in the practical use of the conventional light-emitting diode lamp. The light-emitting diode module is fixedly disposed in the inner space of the lamp housing and the light-transmissive cover combination, and cannot be expanded or contracted at any time according to actual lighting requirements. Form No. A0101 Page 3 of 25 M379717 Reduces the number of LED modules, thus greatly reducing the practicality and flexibility of the lamps, and when producing lamps of various specifications or power, separate molds are required. This will increase production costs and manufacturing timelines. [0004] In view of this, the present creator has focused on the above-mentioned prior art, and has devoted himself to researching and using the theory to try to improve and enhance the performance, and finally can propose a design that is reasonable and effective. [New Content] [0005] The purpose of this creation is to provide a modular lighting device that can flexibly adjust the device according to the actual lighting brightness requirement. [0006] In order to achieve the above object, the present invention provides a modular lighting device comprising a bracket structure and a plurality of lighting modules; the bracket structure is a U-shaped frame, and the open end of the U-shaped frame a pair of rails extending outwardly; the lighting modules are serially connected to the bracket structure, and any one of the lighting modules includes a heat sink base connected to the rail, and a light emitting diode disposed at the bottom of the heat sink base The pole assembly and the plurality of fins respectively fixed to the top of the heat sink base, and any one of the heat sink fins is provided with a notch for the rail to pass through. [0007] The effect of the creation is that, by modular setting, the device can be elastically adjusted according to the actual lighting requirements of the surrounding environment, and the products of different powers can be quickly assembled, for example, the number of lighting modules can be reduced. Save energy, or expand the number of lighting modules to enhance the brightness of the lighting, can significantly reduce the cost of mold opening, expand the scope of use and field, and the lighting module is standardized, with interchangeable sharing characteristics, to reduce inventory and inventory Form No. A0101 Page 4 of 25 uses the lighting module to be connected to the rail and fixed, which can increase the stability of the overall structure of the lighting device. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0008] The detailed description and technical contents of the present invention are described below with reference to the drawings, but the drawings are only for reference and explanation, and are not intended to limit the creation. [0009] The present invention relates to a modular lighting device. Referring to FIGS. 1 to 4, the modular lighting device includes a bracket structure 100, a plurality of lighting modules 200, at least one cover plate 300, and a plurality of fixed components. 400. [0010] The bracket structure 100 includes a hollow frame 110' and a pair of rails 120, 130. The hollow frame 110' is a U-shaped frame 110, and the hollow interior of the U-shaped frame 110 can provide a transformer. Electrical components such as power lines are disposed; the pair of rails 120, 130 are respectively extended outward from both sides of the bottom of the U-shaped frame 110. More precisely, the pair of tracks 120, 130 are formed by the U-shaped frame 110. The open end of the open end of the U-shaped frame 110 and the end of the pair of lanes 120 and 130 are respectively provided with a guiding groove 140. [0011] The lighting modules 200 are sequentially connected in series to the bracket structure 100 and abut each other. Any one of the lighting modules 200 includes a heat dissipation base 210, a light emitting diode assembly 220, and a plurality of heat dissipation fins. Slice 230. The heat dissipation base 210 is connected to the bottom surface of the pair of rails 120 and 130. The heat dissipation base 210 is an element having good thermal conductivity, and may be an aluminum substrate or a copper substrate, but is not limited thereto. [0013] The LED assembly 220 is disposed at the bottom of the heat dissipation base 210, and includes a circuit board 221 fixed to the bottom surface of the heat dissipation base 210 and respectively disposed on the form number A0101, page 5 / total 25 pages, M379717 The circuit board 221 is electrically connected to the plurality of LEDs 222 of the circuit board 221, and the heat dissipation medium is coated between the circuit board 221 and the heat dissipation base 210 to increase heat conduction performance. The heat dissipation fins 230 are respectively fixed to the two end regions of the top surface of the heat dissipation base 210 and sandwich the U-shaped frame body 110. The heat dissipation fins 230 may be connected to the heat dissipation fins 230 by soldering or integral molding. The top surface of the heat dissipation base 210 is not limited to these molding methods. The heat dissipation fins 230 are elements having good thermal conductivity, and may be aluminum sheets or copper sheets, but are not limited to these configurations. A heat dissipation fin 230 defines a notch 231 through which any of the rails 120, 130 are disposed and corresponding to each other. [0015] In addition, the illumination module 200 is connected to the pair of rails 120, 130 by the notches 231, and the heat dissipation base 210 is closely connected to the pair of rails 120, 130 by using a fixing component. The heat dissipation base 210 can be positioned, and the fixing component can be a screw component or a viscous medium or the like. [0016] The at least one cover plate 300 is sealed on one side of the U-shaped frame body 110. The cover plate 300 defines a through hole 310 at a position corresponding to the guide slots 140, and the fixing components 400 respectively The through holes 310 are bored and fixed in the guide grooves 140 to attach the cover plate 300 to the front end of the bracket structure 100. [0017] The pair of rails 120, 130 are respectively formed with a pair of enlarged ends. When the lighting modules 20 0 are connected in series to the U-shaped housing 110 , the lighting modules 200 are closely abutted against each other, and the pair of enlarged portions 121 and 131 are provided for the last lighting module 200 . The cover panel 300 is attached to the first lighting module 200 so that the lighting modules 200 are clamped to the cover plate 300 and the pair of extended form numbers A0101, page 6 of 25 [0018] Between 121 and 131. In addition, the present invention further includes a plurality of lighting modules 200, the structure of which is the same as that of the lighting modules 200, and therefore will not be further described herein. [0019] As shown in Figures 5 and 6, the creation can reduce the number of such lighting modules according to the actual lighting needs of the surrounding environment, thereby saving energy, or amplifying the lighting modules. The number of enamel can enhance the brightness of the illumination, and it is very flexible in use. The creation can be used as a street lamp. A light pole is placed in the U-shaped frame n〇 to be set outdoors to illuminate the road. [0020] Please refer to the seventh and eighth embodiments, the modular lighting device further includes a pair of shielding components 5 分别 disposed on opposite sides of the lighting module 2, and any shielding component 500 includes a rafter 510 is disposed in the guide groove 14 of the upper portion of the u-shaped frame 11 , and the rib 520 is disposed on any of the heat dissipation pedestals 21 〇 The ribs 51 are connected to the ribs 520 at the other end, so that the rafts 51 are suspended above the heat dissipation fins 230, and the functions that can be achieved are waterproof and dustproof to prevent rain or dust from falling to the heat dissipation. The fins 23 are smashed to affect the heat dissipation effect. [0021] In addition, as shown in FIG. 9 , the present invention can be used as a wall washer. The bracket structure 100 further includes a carrier 150 and a pivot 160 connected to the carrier. The u-shaped frame 11 A pivot hole 111 is formed through the rear end of the cymbal for the cymbal 16 to enable the U-shaped frame 11 to be rotated on the carrier 15 to make the lighting modules 200 different. Illuminate the wall at an angle. Referring to FIG. 10, multiple sets of lighting modules can be juxtaposed to enhance the brightness and range of the illumination. The present invention further includes a jumper board _ and a carrier board 700. The jumper board 6GG spans the fixed plurality of brackets. Conclusion (10), the bearer form number A0101 page 7 / 25 pages [0022] M379717 [0023] [0028] [0029] [0029] Form number Α 0101 board 700 across the stickers The plurality of carriers 150 are connected. Referring to FIG. 11 , the bracket structure 1 further includes a hollow tube 170 ′ connected to the carrier 150 , and the bearing seat 15 defines a through hole 151 for receiving the U-shaped frame. The power cord in the body 11 is bored through the through hole 151 and the hollow tube 170. As shown in FIG. 12 , the bearing frame 15 〇 can also be pivotally connected to the top surface of the u-shaped frame 110 , that is, the top surface of the 框-shaped frame body 11 has a pivot portion extending from the top surface, and the pivot hole 111 is opened. In the pivot portion, the pivot 16 is disposed in the pivot hole. Referring to FIG. 13 , the present invention further includes covering the bracket structure 1 , the lighting module 200 , and the shielding An outer cover 800 of the component 5 is configured to allow the light emitting diode assembly 220 to be exposed, and the pivot hole in is opened on the outer cover 800. The pivot 16 is bored through the pivot hole in so that the outer cover 800 can Pivoting on the carrier 150. Of course, 'this creation can also have a variety of other sinful hooks. Without departing from the spirit of the creation and its essence, those skilled in the art can evolve various corresponding changes and modifications according to the creation, but these corresponding Changes and modifications shall fall within the scope of protection of the patent application attached to this creation [Simplified description of the drawings] The first figure is an exploded perspective view of the creation. The second picture is a three-dimensional combination of the creation. The second figure is another perspective view of the second figure. Page 8 of 25 M379717 [_]帛四@ is the horizontal combination of the creation. [0031] Figure 5 is a diagram of the less-lighted module of the creation. Just six pictures are more lighting module diagrams for this creation. Just the first *t® is a three-dimensional exploded view of the creation. [0034] The first figure is a horizontal combined sectional view of another creative embodiment. [0035] The ninth drawing is a perspective assembled view of still another embodiment of the creation. _6] 帛10 is a three-dimensional combination of multiple sets of lighting modules. [0037] The eleventh figure is a three-dimensional combination diagram of the creative carrier connecting the hollow tube. [0038] The eleventh figure is a perspective view of the top surface of the U-shaped frame of the creative carrier. [0039] The twelfth figure is a three-dimensional combination view of the creation of the cover. [Main component symbol description] [0040] Bracket structure 1 U-shaped frame 110 Hollow frame 110' Pivot hole 111 Track 120, 130 Enlarged portion 121, 131 Guide groove 140 Bearing 150 Perforation 151 Pivot 160 hollow tube 170 Form No. A0101 Page 9 of 25 M379717 Lighting Module 200, 200' Heat Dissipation Base 210 Light Emitting Diode 220 Circuit Board 221 Light Emitting Diode 222 Heat Sink 230 Notch 231 Cover Plate 300 Through Hole 310 Fixing element 400 Shading assembly 500 檐 plate 510 Post 520 Jumper plate 600 Carrier plate 700 Cover 800 Form No. A0101
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