M337696 八、新型說明: 【新型所屬之技術領域】 • 本創作係關於一種發光體組裝結構,特別是指一種可迅 、速將發光體與散熱體結合成一體之發光體組裝結構。 【先前技術】M337696 VIII. New description: [New technical field] • This creation is about an illuminator assembly structure, especially an illuminant assembly structure that can quickly and quickly combine the illuminant and the heat sink. [Prior Art]
由於LED具有壽命長、省電 '耐用、耐震、牢靠、適人 量產、體積小、反應快等諸多優點,故已逐漸被應用於_ 燈具中。然而,LED雖實用,但其於發光過程中會產生高溫, 所以在應用±必須#由散熱模組將其產生之高溫逸散至大 氣,使LED可正常運作。因此,散熱模組與咖可說是密 不可分。 而習用LED與散熱模組在組裝上仍具有以下缺失: 1.習用LED係設置於一鋁板上’再將鋁板鎖固或黏固於 散熱模組上,使散熱模組可將LED產生之熱能排除。但此方 式會增加加工時間,造成組裝成本的增加, 益。 # 2•習用LED需要與電源供應器連接,透過電源供應器導 入H方能使LED發光。然而’此方式需逐一進行每一 ' led之連接,造成接線上之複雜度。 • 由此可見,上述習用物品仍有諸多缺失,實非一良善之 設計者,而亟待加以改良。 本案創作人鑑於上述習用燈具所衍生的各項缺點,乃亟 思加以改良創新’並經多年苦心孤詣潛心研究後,終於成功 研發完成本件燈具結構。 【新型内容】 M337696 本創作之目的即在於提供一種發光體組裝結構,係於散 熱體底面之滑槽中設置有兩導電片,該導電片係與電源供二 器相連接,並於LED散熱面板上設置有與導電片相對應之^ 極片’使得散熱面板滑人散熱體之滑槽中時,該電源可 導至LED,以驅使LED產生光源,而達到組裝㈣ :創:之次一目的係在於提供一種具有結構簡單、組裝 谷易及两霄用性等諸多優點之發光體組裝結構。 可達成上述新型目的之發光體奘 及-散熱面板中…構,包括-散熱體 壁面上二::有ΓΓ 各形成一滑軌,該兩滑軌之内 緣處理,使導<1片⑨料電片與滑軌之接觸面需做絕 電源供應器之正、負極相、車:導電並將兩導電片分別與 上.兮與批負相連接,以將電源導引至兩導電片 設置ΐ電::上、?有複數發光體,並於散熱面板兩側各 接;係將散 口相對應,使發光體為裸露狀熊曰使么先體與滑槽開 則會與散熱體之導電片相^心 政…、面板兩側之電極片 藉由電極片導引至發光二電源傳導至電剛 達到組裝迅速之目的。a f發光體得以產生光源,進而 【實施方式】 睛麥閱圖一至圖三 結構之第一實施示竟不,係本創作所提供之發光體組 - ,主要包括有: 放熱體1,该散熱體 並於底面設置有一 $扭 之頂面延伸有複數散熱翼片1] 月曰U ’該滑槽12表面為開口 13狀態 M337696 使開口 1 3兩側各形成一滑轨14,該兩滑軌14之内壁面上分 別結合有一導電片2,該導電片2與滑軌13之接觸面皆需1 絕緣處理,使導電片2與散熱體1無法導電,並將兩導電片 2分別與電源供應器之正、負極相連接(圖中未標示),以將 電源導引至兩導電片2上; 、 “ 一散熱面板3,該散熱面板3上結合有一顆或複數顆發 光體4,並於散熱面板3兩側各設置有一電極片$,該兩電 極片5係藉由連接線6與發光體4相連接; 係將散熱面板3滑人散熱體i之滑槽12中,使散熱面板 舁散熱體1之底面相貼合’以將發光體4產生之熱能導引 至:熱體’經由散熱體!達到散熱效果;且散熱面板3兩側 :電極片5會與散熱體!之滑執14内壁面的導電片2相接 :::電源可經導電片2、電極片5傳導至發光體4,致使 ^體4得以產生光源;而發光體4則與滑槽12之開口 η 相對應’導致發光體4呈現裸露狀 發 源可經為開口 13逸射出,以達到照明之目的“出之先 :參閱圖四及圖五所示,係本創作之第二實施示意圖,. 二:f異處在於,該散熱體1底面可設置複數滑槽… 二有發光體4之散熱面板3滑入組合定位,而散熱體 -相π 槽12形式與散熱面板3之形式皆與圖-及圖 一相冋,與此不在贅述。 請參閱圖六及圖七所示,係本創 主要包括有: 】作之弟二貫施不意圖, 並於::!體乂:散熱體7之頂面延伸有複數散熱翼片”, l形底面上设置有兩對應之溝槽72,該溝槽72之斷面略成 兩定位板8,該兩定位板 係為不導電材質製成,並於 M337696 定位板8之頂面垂直延伸有定位部81,底面垂直延伸有一滑 軌82,該滑軌82之内壁面上分別結合有一導電片2,並將 兩導電片2分別與電源供應器之正、負極相連接(圖中未標 ,示以將電源導引至兩導電片2±;係將兩定位板8頂面 、之定位部8 1分別滑入散熱體7底面之兩溝槽72中,使兩定 位板8定位並對應設置,且其底面之滑軌82並與散熱體7 之底面保持一間距,進而於散熱體7之底面形成一滑槽乃; 一散熱面板3,該散熱面板3上結合有一顆或複數發光 體4,並於散熱面板3兩側各設置有一電極片5,該兩電極 _片5係藉由連接線6與發光體4相連接; 係將散熱面板3滑入散熱體7底面所形成之滑槽73中, 使放熱面板3與散熱體7之底面相貼合,以將發光體4產生 之熱能導引至散熱體7,經由散熱體7達到散熱效果;且散 熱面板3兩側之電極片5會與兩定位板8底面滑執82内壁 面的導電片2相接觸,使電源可經導電片2、電極片$傳導 至發光體4,致使發光體4得以產生光源;而發光體4則與 滑槽73相對應,導致發光體4呈現裸露狀態,使發光體* 發出之光源可經滑槽73逸射出,以達到照明之目的。 ® 另外,上述各實施例之散熱面板3上的發光體4可為LED 或 OLED。 另外’上述各實施例之散熱面板3可視面積大小的不 同,而供一顆發光體4或多顆發光體4結合。 另外’上數各貫施例之散熱面板3可為銘板或其他具金 屬面板,使其可吸收發光體4產生之熱能; 另外’上述各貫施例之散熱體1或7的滑槽12或7 3高 度與散熱面板3之厚度接近相同,使得散熱面板3滑入散熱 體1或7之滑槽12或7 3中時,除可緊密定位外,其兩側之 M337696 電極片5亚可與滑槽12或73之導電片2緊密接合。 另外,使用者可視照明範圍的大小,自行決定散熱面板 3之使用數量。 本創作所提供之發光體組聢結構,與其他習用技術相互 比較時’更具有下列之優點: 1. 本創作係於散熱體底面之滑槽中設置有兩導電片,該 導電片係與電源供應器相連接,並於LED散熱面板上設置有 與=電片相對應之電極片,使得散熱面板滑人散熱體之滑槽 中時,該電源可經電極片傳導至led,以驅使led產生光 源’而達到組裝便利之目的。 2. 本創作係具有結構簡單、組裝容易及高實用性等諸多 明^列詳細說明係針對本創作之—可行實施例之具⑸ 施例並非用以限制本創作之專利範圍,凡未脫凑 專二ri精神所為之等效實施或變更,均應包含於本^ 用二所隹1,本案不但在空間型態上確屬創新,並能較, :s進上述多項功效,應、已充分符合新穎性 = 軸出申請,懇…二 【圖式簡單說明】 口月木’以勵創作,至感德便。 【二::創作發光體組裝結構之第一實施組裝示意圖 圖:為ί::發光體組裝結構之第一實施示意立體圖 t = 光體組裝結構之第-實施示意剖面圖 圖五體組裝結構之第二實施組裝示意圖 ’、’、本創作發光體組裝結構之第二實施立體示意圖 M337696 圖六為本創作發光體組裝結構之第 以及 圖七為本創作發光體組裝結構之第 【主要元件符號說明】LED has been gradually used in _ luminaires because of its long life, power saving, durability, shock resistance, robustness, mass production, small size, and fast response. However, although LED is practical, it generates high temperature during the illuminating process. Therefore, the application of ± must be dissipated by the heat-dissipating module to the atmosphere, so that the LED can operate normally. Therefore, the heat dissipation module is inseparable from the coffee. The conventional LED and heat-dissipation module still have the following defects in assembly: 1. The conventional LED system is set on an aluminum plate, and then the aluminum plate is locked or adhered to the heat-dissipating module, so that the heat-dissipating module can generate the heat energy of the LED. exclude. However, this method will increase the processing time and increase the assembly cost. # 2• The custom LED needs to be connected to the power supply, and the LED can be illuminated through the power supply. However, this method requires each of the 'led connections to be made one by one, resulting in a complicated wiring. • It can be seen that there are still many missing items in the above-mentioned items, which is not a good designer and needs to be improved. In view of the shortcomings derived from the above-mentioned conventional lamps, the creators of this case have made innovations and innovations, and after years of painstaking research, they finally succeeded in researching and developing the structure of the lamps. [New content] M337696 The purpose of this creation is to provide an illuminant assembly structure, which is provided with two conductive sheets in the sliding groove of the bottom surface of the heat sink, and the conductive sheet is connected with the power supply and the LED heat dissipation panel. When the heat sink panel is disposed in the sliding slot of the heat sink, the power source can be led to the LED to drive the LED to generate the light source to achieve assembly (4): creation: second purpose It is to provide an illuminant assembly structure having many advantages such as simple structure, easy assembly, and dual versatility. The illuminating body - and the heat dissipating panel in the above-mentioned novel purpose include: - the wall surface of the heat dissipating body is two:: ΓΓ each forms a sliding rail, and the inner edges of the two sliding rails are processed to make a guide <1 piece 9 The contact surface between the material piece and the slide rail needs to be the positive and negative phase of the power supply, the car: conductive and connect the two conductive sheets to the upper and the negative, respectively, to guide the power supply to the two conductive sheets. ΐ电::上,? There are a plurality of illuminators, and they are connected on both sides of the heat dissipation panel; the corresponding openings are made, so that the illuminators are bare-shaped bears, so that the precursors and the chutes are opened, and the conductive sheets of the heat sinks are in contact with each other... The electrode sheets on both sides of the panel are guided by the electrode sheets to the light source and the power source is electrically connected to the power to achieve rapid assembly. The af illuminant is capable of generating a light source, and further, the first embodiment of the structure of the first and third figures of the eye ray is not shown, and the illuminant group provided by the present invention includes: an exothermic body 1, the heat dissipating body And a top surface of the twisted surface is provided with a plurality of heat dissipating fins 1]. The surface of the chute 12 is an opening 13 state M337696. A sliding rail 14 is formed on each side of the opening 1 3, and the two sliding rails 14 are formed. The inner wall surface is respectively combined with a conductive sheet 2, and the contact surface between the conductive sheet 2 and the sliding rail 13 needs to be insulated, so that the conductive sheet 2 and the heat sink 1 cannot be electrically conductive, and the two conductive sheets 2 are respectively connected to the power supply. The positive and negative electrodes are connected (not shown) to guide the power supply to the two conductive sheets 2; "a heat dissipation panel 3, the heat dissipation panel 3 is combined with one or a plurality of illuminants 4, and is cooled An electrode sheet $ is disposed on each side of the panel 3, and the two electrode sheets 5 are connected to the illuminant 4 through the connecting line 6; the heat dissipating panel 3 is slid into the sliding slot 12 of the heat dissipating body i to dissipate heat from the heat dissipating panel The bottom surface of the body 1 is attached to 'the heat energy generated by the illuminant 4 Leading to: the hot body 'via the heat sink! to achieve the heat dissipation effect; and the two sides of the heat dissipation panel 3: the electrode sheet 5 will be connected with the conductive sheet 2 of the inner wall surface of the sliding body 14 of the heat sink body::: the power source can pass through the conductive sheet 2 The electrode sheet 5 is conducted to the illuminant 4, so that the body 4 can generate a light source; and the illuminant 4 corresponds to the opening η of the chute 12, so that the illuminant 4 exhibits a bare origin and can be ejected through the opening 13 to To achieve the purpose of lighting "first come out: see Figure 4 and Figure 5, is the second implementation diagram of this creation, two: f is different, the bottom of the radiator 1 can be set to a plurality of chutes... The heat dissipation panel 3 of the 4 slides into the combined positioning, and the form of the heat sink-phase π slot 12 and the heat dissipation panel 3 are inconsistent with the drawings - and FIG. Please refer to Figure 6 and Figure 7. The main innovations include: 】The second brother does not intend to do it, and::! Body: The top surface of the radiator 7 has a plurality of heat-dissipating fins, l The bottom surface of the shape is provided with two corresponding grooves 72. The groove 72 has a cross section slightly formed by two positioning plates 8. The two positioning plates are made of non-conductive material and extend vertically on the top surface of the M337696 positioning plate 8. The positioning portion 81 has a sliding rail 82 extending from the bottom surface thereof. The inner wall surface of the sliding rail 82 is respectively coupled with a conductive sheet 2, and the two conductive sheets 2 are respectively connected to the positive and negative poles of the power supply (not shown in the figure. The two parts of the positioning plate 8 of the two positioning plates 8 are respectively slid into the two grooves 72 of the bottom surface of the heat dissipating body 7, so that the two positioning plates 8 are positioned and correspondingly arranged. And the sliding rail 82 of the bottom surface thereof is spaced apart from the bottom surface of the heat dissipating body 7 to form a sliding groove on the bottom surface of the heat dissipating body 7; a heat dissipating panel 3 on which one or a plurality of illuminating bodies 4 are combined And an electrode sheet 5 is disposed on each side of the heat dissipation panel 3, and the two electrodes_5 are connected by the connecting line 6 The light body 4 is connected to each other; the heat dissipation panel 3 is slid into the sliding groove 73 formed on the bottom surface of the heat dissipation body 7, and the heat release panel 3 is attached to the bottom surface of the heat dissipation body 7 to guide the heat energy generated by the illuminant 4 to The heat dissipating body 7 is cooled by the heat dissipating body 7; and the electrode sheets 5 on both sides of the heat dissipating panel 3 are in contact with the conductive sheets 2 on the inner wall surface of the sliding plate 82 of the two positioning plates 8 so that the power source can pass through the conductive sheet 2 and the electrodes. The film $ is conducted to the illuminant 4, so that the illuminant 4 can generate a light source; and the illuminant 4 corresponds to the chute 73, causing the illuminant 4 to be exposed, so that the light source emitted by the illuminant* can escape through the chute 73. In order to achieve the purpose of illumination. In addition, the illuminant 4 on the heat dissipation panel 3 of the above embodiments may be an LED or an OLED. In addition, the heat dissipation panel 3 of the above embodiments has a different visible area and provides one illumination. The body 4 or a plurality of illuminants 4 are combined. In addition, the heat dissipation panel 3 of the above embodiments may be a nameplate or other metal panel so that it can absorb the heat energy generated by the illuminator 4; The height of the chute 12 or 7 3 of the heat sink 1 or 7 The thickness of the thermal panel 3 is nearly the same, so that when the heat dissipation panel 3 is slid into the sliding slot 12 or 7 of the heat sink 1 or 7, the M337696 electrode sheet 5 on both sides of the heat sink 3 can be closely aligned with the chute 12 or The conductive sheet 2 of 73 is tightly joined. In addition, the user can determine the number of the heat-dissipating panel 3 by the size of the illumination range. The illuminant group structure provided by the present invention is compared with other conventional techniques. Advantages: 1. The present invention is provided with two conductive sheets in the sliding groove of the bottom surface of the heat sink, the conductive sheet is connected with the power supply, and the electrode sheet corresponding to the = electric piece is disposed on the LED heat dissipation panel. When the heat dissipation panel is slid into the sliding slot of the heat sink, the power source can be conducted to the LED through the electrode sheet to drive the LED to generate the light source to achieve the purpose of assembly convenience. 2. The creative department has a simple structure, easy assembly and high practicability, etc. The detailed description of the series is for the present invention - the feasible embodiment (5) The example is not intended to limit the scope of the patent of this creation. The equivalent implementation or change of the special ri spirit should be included in the second paragraph. This case is not only innovative in terms of space type, but also comparable to: s into the above multiple functions, should be, fully In line with the novelty = axis out of the application, 恳 ... 2 [simple description of the map] Mouth Moon wood to encourage creation, to the sense of virtue. [2:: Schematic diagram of the first implementation assembly of the illuminator assembly structure: ί:: first embodiment of the illuminant assembly structure, perspective view t = light body assembly structure, first embodiment, schematic sectional view, five-body assembly structure Second Embodiment Assembly Schematic ', ', the second embodiment of the present illuminant assembly structure is a three-dimensional schematic view M337696 Figure 6 is the first illuminant assembly structure and Figure 7 is the first illuminant assembly structure 】
實施組裝示意圖; 實施立體示意圖。 1散熱體 11散熱翼片 12滑槽 13開口 14滑執 2導電片 3散熱面板 4發光體 5電極片 6連接線 7散熱體 71散熱翼片 72溝槽 8定位板 81定位部 82滑執 10Implementation of the assembly schematic; implementation of a three-dimensional schematic. 1 heat sink 11 heat sink fin 12 chute 13 opening 14 slip 2 conductive sheet 3 heat sink panel 4 illuminator 5 electrode sheet 6 connecting line 7 heat sink 71 heat sink fin 72 groove 8 positioning plate 81 positioning portion 82 slippery 10