M441070 五、新型說明: 【新型所屬之技術領域】 [0001] 本創作係有關一種發光二極體嵌燈,尤指一種利用组裝 後與建築壁板所形成之接觸面,進行散熱的發光二極體 嵌燈。 【先前技術】 [0002] 隨著生活品質的提升,對於照明與環境美化的要求,逐 曰增加》以往,照明裝置的架設,大多裸露於建築壁板 • 外’而破壞了整體設計的美感,為此,嵌設於建築壁板 ,僅投光元件裸露於建築壁板裝飾表面的嵌燈由此而生 ,而所述的嵌燈結構例如中華民國發明專利案第1360621 號所揭,現今的嵌燈,大多利用一卡擎件或一彈性件, 以提供一限位作用力,使嵌燈可嵌設於建築壁板之中, 所述的彈性件例如前述所揭專利案的彈性臂。現今以發 光二極體做為主要投光源的燈源裝置,皆裝設或具有一 散熱構件,以將發光二極體作用中所產生的廢熱,有效 φ 發散’所述的散熱構件例如前揭專利案中所述的散熱器 °又’為使散熱構件具有_定功效的散熱水準,現今散 熱構件皆以同導熱材質所製成,普遍利用鐵、銘、銅或 =合金等所製成,上述材料製成後散熱構件便具有的一 疋,量。長期實施下’切結構因長期承受散熱構件的 重$使其所月b提供的限位作用力減少,輕則導致嵌燈 無法固設於建築壁板之中產生搖晃,重則導致娜離 原先所組設的位置。峪 咏此之外,散熱構件所能實施的重 量’更受限於卡擎結構所能產生的限位作用力大小。 10120961^單編號 A0101 第 /共17頁 1012031105-0 ]再者’現今散熱構件與發光構件間的組設方式大多利 用組件’例如鉚釘或螺絲等以將兩構件進行組設 並於兩構件間形成單一平面的散熱接觸面供發光構 件所產生的廢熱,經此散熱接觸面傳導至散熱構件上。 仁僅利用單或數個組設件完成兩構件組設的實施方式 散.、.、僅月b透過組設時所產生的散熱接觸面進行散熱。 田組叹件因熱產生形變時’兩構件之間的散熱接觸面勢 2產生改變’使健效率下卜若未重視此問題,廢熱 容易積存在發光構件之中,導致發光構件中的發光元件 產生熱衰竭等情事。故,若能針對現有嵌燈的實施結構 進行改良,必能改善前述所揭的問題。 【新型内容】 本創作之主要目的,在於提供具較佳散熱效果的發光二 極體嵌燈。 [0005] ± ^ 則作之次要目的,在於解決習用嵌燈利用卡擎結構進 行組接,導致嵌燈無法產生有效固設的問題。 _6] A、丢., ·"、違上述目的,本創作提供一種發光二極體嵌燈,裝設 於—建築壁板,包含有一光源模組及一散熱基座。該光 源模組包含有一投光部,一供該投光部組設的基座部, 以及一連接於該基座部的第一連接部。該散熱基座包含 有一與該第一連接部组接的第二連接部,以及自該散熱 基座表面向該建築壁板表面延伸的第一散熱部。該基座 部與該第一散熱部相對該建築表面的一裝飾表面與一遮 蔽表面分別具有一第一夾掣面及一第二失掣面時,該兩 第4頁/共17頁 失擎面分別接觸該裝飾表面與該遮蔽表面,以夾持該建 10120961#單編號 A01(u M441070 築壁板。 [0007] 本創作一實施例中,該基座部上具有一供與機械工具夾 持帶動的輔助作動部。 [0008] 本創作一實施例中,該第一連接部與該第二連接部分別 具有一相對應螺合結構。 [0009] 本創作一實施例中,該散熱基座包含有一自該散熱基座 表面垂直於該遮蔽表面延伸方向形成的第二散熱部。 [0010] 本創作一實施例中,該散熱基座的第二連接部包含有一 抵靠該裝設孔内壁的嵌入部。 [0011] 本創作一實施例中,該光源模組具有一設置於該基座部 的驅動模組,用以驅動該投光部產生照明光線。 [0012] 本創作一實施例中,該基座部包含有一與該驅動模組電 性連接的電性連接線。 [0013] 本創作一實施例中,該散熱基座具有一供該電性連接線 穿設的穿設孔。 [0014] 藉由上述該基座部與該第一散熱部分別夾掣該建築壁板 ,令該發光二極體嵌燈組設於該建築壁板之上,相較於 習用以卡擎結構的組設方式,本創作利用該基座部與該 第一散熱部分別形成的兩夾掣面,提供了較為穩固的組 設方式。且本創作實施時,該光源模組所產生的廢熱, 除經由散熱基座發散於空氣之中,更可利用該第一夾掣 面將廢熱經由該建築壁板傳導而出。 【實施方式】 10120961^^^ A〇101 第5頁/共17頁 1012031105-0 M441070 [0015] 有關本創作之詳細說明及技術内容,現就配合圖式說明 如下: [0016] 清參閱圖1及圖2,圖為本創作立體分解示意圖以及剖面 分解不意圖,如圖所示:本創作為一種發光二極體嵌燈1 ’包含有一光源模組11及一散熱基座1 2。該光源模組11 包含有一產生照明光線的投光部1丨丨,一供該投光部設置 的基座部112,以及一連接於該基座部112的第一連接部 113。該散熱基座12包含有一與該第一連接部丨13相對應 組設的第二連接部121,以及一自該散熱基座12表面延伸 形成的第一散熱部122,。該基座部112可設置有一驅動 模組(本圖未示),該驅動模組可為一起動電路或一轉換 電路等,用以驅動該投光部1U產生照明光線,而該基座 部112進一步具有一電性連接線114,該電性連接線114 一端與該驅動模組電性連接,另一端則可與一外部電源( 本圖未示)電性連接,用以取得作動所需的電能,而該散 熱基座12具有一可供該電性連接線114穿設於其中的穿設 孔123,該穿設孔123可穿透於散熱基座12 ,與該第二連 接部121相連通。該第一連接部113與該第二連接部121 分別具有一相對應螺合結構,但本創作並不僅以螺合結 構做為限制》 剛請參閱圖3、圖4及圖5,本創作所揭的發光二極體丧燈1 ,裝設於一建築壁板2上,該建築壁板2包含有一裝飾表 面21、一遮蔽表面22、以及一穿設於該裝飾表面21及該 遮蔽表面22的裝設孔23,而所述的建築壁板2可為一壁板 或-天花板等。實施初始,該建築壁板2預先穿設有該裝 10120961#單编號删1 第6頁/共π頁. 1012031105-0 M441070 設孔23,再將該散熱基座12設置於該建築壁板2的該遮蔽 表面22—側,使該第二連接部121與該裝設孔23相對應, 而該第一散熱部122頂靠該遮蔽表面22,形成有一第二夾 掣面124,而該光源模组η則設置於該建築壁板2的該裝 飾表面21—側,並使該第一連接部113穿設於該裝設孔23 ,與该第一連接部121相對組合,當該第一連接部jig與 該第二連接部121完成組合,該基座部η?頂靠該裝飾表 面21,形成一第一夾掣面115,使該建築壁板2分別受該 第一夾掣面115及該第二夾掣面124夾持,使該發光二極 體嵌燈1夾持於該建築壁板2之上,而該發光二極體嵌燈! 的實施組裝方式如圖4所示,但並不以圖中所示為限,該 發光二極體嵌燈1完成組設後,使用者僅能看到裝設於該 裝飾表面21的該光源模組11,而無法看到裝設於該遮蔽 表面2 2的該散熱基座12,如此一來,便可避免裝設照明 裝置導致破壞設計環境美觀的情形發生,且相較於習用 嵌燈僅利用卡擎結構形成點接觸的組設方式,本創作提 供較廣泛的面接觸夾掣組設方式,可產生較穩固的組設 形態。該發光二極體嵌燈1組設完成後,該光源模組^作 動時所產生的廢熱,除可經由該第一連接部丨13導向該第 二連接部121 ,利用該第一散熱部122進行散熱之外,更 可利用該第一散熱部122與該遮蔽表面22所形成的該第二 夾掣面124進行散熱。 [0018]本具體實施例中,該第一散熱部122所形成的態樣,是沿 著該建築壁板2—側面的水平延伸方向成形,如圖3,該 第一散熱部122便自該散熱基座12表面向該遮蔽表面22延 伸方向形成 10120961#單編號 A0101 該散熱基座12除具有該第一散熱部i 22之外 第7頁/共17頁 1012031105-0 M441070 [0019] [0020] [0021] [0022] ’更包含有一第二散熱部125,該第二散熱部125可自該 散熱基座12表面垂直於該第一散熱部122方向成形,故, 貫施時’該第二散熱部125是垂直於該遮蔽表面22延伸方 向成形。 於本創作的另一實施態樣中,該第一散熱部122可為一鰭 片狀’片與片之間則具適當間距,且各片内控相異,更 可升> 成下寬上窄的梯形態樣,而本實施例中第一散熱部 122與第二散熱部125所揭的態樣,並不用以限制本創作 的實施態樣’該第一散熱部122與該第二散熱部125,可 透過鋁擠或沖壓的方式,一體成型於散熱基座12上,又 ,散熱基座12整體可由一具高導熱性的材質所製成,例 如鐵、鋁、銅或其合金等材質。 於本創作的另一實施態樣中,為使該散熱基座12得以快 速對齊該建築壁板2的該裝設孔23,該第二連接部121進 一步具有一嵌入部126,該嵌入部126設置後,頂靠於該 裝設孔23内緣。 於本創作的另一實施態樣中,該光源模組11的該基座部 112更包含有一輔助作動部116,該輔助作動部116可供 與一機械工具夾持,使該光源模組Π可受機械工具作動 而產生連動,而利於該光源模組u與該散熱基座12的組 合上,上述所稱的機械工具(本圖未示)可為一手工具戋 一氣動工具。 综上所述,由於本創作利用該基座部與該第一散熱部, 相對應該建築壁板的該裝飾表面及該遮蔽表面形成該第 10120961^MSt A0101M441070 V. New description: [New technical field] [0001] This creation is about a light-emitting diode downlight, especially a light-emitting two that uses the contact surface formed by the assembled building wall to dissipate heat. Polar body recessed light. [Prior Art] [0002] With the improvement of the quality of life, the requirements for lighting and environmental beautification have increased. In the past, the erection of lighting devices was mostly exposed to the siding of the building and destroyed the beauty of the overall design. For this reason, a recessed light embedded in the siding of the building and only the light projecting component is exposed on the decorative surface of the building siding is born, and the recessed light structure is disclosed, for example, in the Republic of China invention patent No. 1360621, which is nowadays The recessed lamp mostly uses a card or an elastic member to provide a limiting force for embedding the recessed lamp in the building siding, such as the elastic arm of the aforementioned patent. Nowadays, the light source device with the light-emitting diode as the main light source is installed or has a heat-dissipating member to effectively dissipate the waste heat generated by the action of the light-emitting diode, such as the heat-dissipating member. The heat sink ° described in the patent case is designed to make the heat dissipating member have a certain level of heat dissipation. Nowadays, the heat dissipating members are made of the same heat conductive material, and are generally made of iron, inscription, copper or alloy. The above-mentioned materials are made of a heat-dissipating member. Under the long-term implementation, the 'cut structure' is limited by the weight of the heat-dissipating component for a long time, so that the limit force provided by the month b is reduced, and the light can not be fixed in the building siding to cause the swaying, which leads to the departure of the original The location of the group.咏 In addition, the weight that can be implemented by the heat dissipating component is more limited by the limit force that can be generated by the card engine structure. 10120961^单单A0101 / 17 pages 1012031105-0 ] Furthermore, the assembly method between the heat dissipating member and the light-emitting member is mostly composed of components such as rivets or screws to form two members and form between the two members. The waste heat generated by the light-emitting member of the single-plane heat-dissipating contact surface is conducted to the heat-dissipating member via the heat-dissipating contact surface. Ren uses only a single or several sets of components to complete the two-component assembly. The heat dissipation contact surface generated by the assembly is dissipated. When the Tianji singer is deformed by heat, the 'heat-dissipation surface potential 2 between the two components changes'. If the health efficiency is not taken seriously, the waste heat is easily accumulated in the light-emitting member, resulting in the light-emitting element in the light-emitting member. Causes heat exhaustion and other circumstances. Therefore, if the implementation structure of the existing downlight can be improved, the problems disclosed above can be improved. [New content] The main purpose of this creation is to provide a light-emitting diode recessed lamp with better heat dissipation effect. [0005] The second objective of ± ^ is to solve the problem that the conventional recessed lamp is assembled by using the card engine structure, resulting in the inability of the recessed lamp to be effectively fixed. _6] A, lost., ·", in violation of the above purposes, the present invention provides a light-emitting diode downlight mounted on a building siding comprising a light source module and a heat sink base. The light source module includes a light projecting portion, a base portion for the light projecting portion, and a first connecting portion connected to the base portion. The heat dissipation base includes a second connection portion coupled to the first connection portion, and a first heat dissipation portion extending from the surface of the heat dissipation base toward the surface of the building wall. When the base portion and the first heat dissipating portion respectively have a first clamping surface and a second missing surface with respect to a decorative surface and a shielding surface of the building surface, the two 4th page/total 17 pages are lost The surface contacts the decorative surface and the shielding surface respectively to clamp the built-in 10120961# single number A01 (u M441070 wall-mounted board. [0007] In an embodiment of the present invention, the base portion has a mechanical tool holder In the embodiment of the present invention, the first connecting portion and the second connecting portion respectively have a corresponding screwing structure. [0009] In an embodiment of the present invention, the heat dissipating base The socket includes a second heat dissipating portion formed from a surface of the heat dissipating base perpendicular to the shielding surface. [0010] In an embodiment of the present invention, the second connecting portion of the heat dissipating base includes a mounting hole In an embodiment of the present invention, the light source module has a driving module disposed on the base portion for driving the light projecting portion to generate illumination light. [0012] In the example, the base portion includes a drive [0013] In an embodiment of the present invention, the heat dissipation base has a through hole through which the electrical connection line is pierced. [0014] Separating the building siding with the first heat dissipating portion, so that the illuminating diode illuminating unit is disposed on the building siding, and the creation uses the base compared with the conventional arranging structure The two clamping faces formed by the seat portion and the first heat dissipating portion respectively provide a relatively stable assembling manner. In the implementation of the present invention, the waste heat generated by the light source module is dispersed in the air through the heat dissipation base. The waste heat can be conducted through the building wall panel by using the first clamping surface. [Embodiment] 10120961^^^ A〇101 Page 5 of 17 1012031105-0 M441070 [0015] About this creation Detailed description and technical content, the following is a description of the following: [0016] See Figure 1 and Figure 2 for a clear view of the creation of the three-dimensional decomposition and cross-section decomposition is not intended, as shown: the creation is a light-emitting diode The bodylight 1' includes a light source module 11 and a heat sink The light source module 11 includes a light projecting portion 1 that generates illumination light, a base portion 112 for the light projecting portion, and a first connecting portion 113 connected to the base portion 112. The heat dissipation base 12 includes a second connecting portion 121 corresponding to the first connecting portion 13 and a first heat radiating portion 122 extending from a surface of the heat radiating base 12 . The driving module can be a driving circuit or a converting circuit for driving the light projecting portion 1U to generate illumination light, and the base portion 112 further has a driving module (not shown). The electrical connection line 114 is electrically connected to one end of the electrical connection line 114, and the other end is electrically connected to an external power source (not shown) for obtaining power required for actuation. The heat dissipation base 12 has a through hole 123 through which the electrical connection line 114 is inserted. The through hole 123 can penetrate the heat dissipation base 12 and communicate with the second connection portion 121. The first connecting portion 113 and the second connecting portion 121 respectively have a corresponding screwing structure, but the creation is not limited to the screwing structure. Please refer to FIG. 3, FIG. 4 and FIG. The exposed LED lamp 1 is mounted on a building panel 2, the building panel 2 includes a decorative surface 21, a shielding surface 22, and a decorative surface 21 and the shielding surface 22 The mounting wall 23 is provided, and the building panel 2 can be a wall panel or a ceiling or the like. Initially, the building siding 2 is pre-installed with the device 10120961# single number deletion 1 page 6 / total π page. 1012031105-0 M441070 hole 23, and then the heat dissipation base 12 is set on the building siding The side of the shielding surface 22 is such that the second connecting portion 121 corresponds to the mounting hole 23, and the first heat dissipating portion 122 abuts against the shielding surface 22 to form a second clamping surface 124. The light source module η is disposed on the side of the decorative surface 21 of the building panel 2, and the first connecting portion 113 is disposed in the mounting hole 23, and is combined with the first connecting portion 121. A connecting portion jig is combined with the second connecting portion 121, and the base portion η? abuts against the decorative surface 21 to form a first clamping surface 115, so that the building panel 2 is respectively received by the first clamping surface 115 and the second clamping surface 124 are clamped, so that the LED projection lamp 1 is clamped on the building panel 2, and the LED body is embedded! The implementation manner of the assembly is as shown in FIG. 4, but is not limited to the one shown in the figure. After the LED built-in light 1 is assembled, the user can only see the light source installed on the decorative surface 21. The module 11 can not see the heat dissipation base 12 mounted on the shielding surface 22, so that the installation of the illumination device can be avoided, thereby causing damage to the aesthetic appearance of the design environment, and compared with the conventional downlight The design method of forming a point contact by using only the card engine structure, the present invention provides a wider range of surface contact clamps, which can produce a relatively stable configuration. After the set of the LEDs 1 is completed, the waste heat generated by the light source module can be guided to the second connecting portion 121 via the first connecting portion 13 to utilize the first heat radiating portion 122. In addition to the heat dissipation, the first heat dissipation portion 122 and the second clamping surface 124 formed by the shielding surface 22 can be used to dissipate heat. [0018] In the embodiment, the first heat dissipating portion 122 is formed along a horizontal extending direction of the side wall of the building panel 2, as shown in FIG. The surface of the heat dissipation base 12 is formed in the direction in which the shielding surface 22 extends. 10120961# Single number A0101. The heat dissipation base 12 has the first heat dissipation portion i 22, the seventh page / a total of 17 pages 1012031105-0 M441070 [0019] [0020 [0022] [0022] further includes a second heat dissipating portion 125, the second heat dissipating portion 125 can be formed from the surface of the heat dissipating susceptor 12 perpendicular to the first heat dissipating portion 122, so The two heat dissipating portions 125 are formed perpendicular to the extending direction of the shielding surface 22. In another embodiment of the present invention, the first heat dissipating portion 122 can be a fin-shaped piece with a proper spacing between the pieces, and the internal control of each piece is different, and can be increased by > In the embodiment, the first heat dissipating portion 122 and the second heat dissipating portion 125 are not used to limit the embodiment of the present invention. The first heat dissipating portion 122 and the second heat dissipating portion are not limited. The portion 125 can be integrally formed on the heat dissipation base 12 by means of aluminum extrusion or stamping. Further, the heat dissipation base 12 can be made of a material having high thermal conductivity, such as iron, aluminum, copper or its alloy. Material. In another embodiment of the present invention, in order to enable the heat dissipation base 12 to quickly align the mounting hole 23 of the building panel 2, the second connecting portion 121 further has an insertion portion 126, the insertion portion 126. After being disposed, it abuts against the inner edge of the mounting hole 23. In another embodiment of the present invention, the base portion 112 of the light source module 11 further includes an auxiliary actuating portion 116 for clamping with a mechanical tool to cause the light source module to be clamped. The mechanical tool (not shown) can be a one-hand tool, a pneumatic tool, and the combination of the light source module u and the heat dissipation base 12 can be used. In summary, since the present portion utilizes the base portion and the first heat dissipating portion, the decorative surface corresponding to the building panel and the shielding surface form the 10120961^MSt A0101
夾掣面及該第二夾掣面,而使本創作可夹持裝,於 1 第8頁/共Π頁 、叹;I 1012031105-0 M.441070 建築壁板上,且相較於習用以卡擎結構的組設方式,本 創作提供了較為穩固的組設方式。且本創作實施時,該 光源模組所產生的廢熱,除經由散熱基座發散於空氣之 中,更可利用該第一夾掣面將廢熱經由該建築壁板傳導 而出。 [0023] 因此本創作極具進步性及符合申請新型專利之要件,爰 依法提出申請,祈鈞局早曰賜准專利,實感德便。 [0024] 以上已將本創作做一詳細說明,惟以上所述者,僅爲本 創作之一較佳實施例而已,當不能限定本創作實施之範 圍。即凡依本新型申請範圍所作之均等變化與修飾等, 皆應仍屬本新型之專利涵蓋範圍内。 【圖式簡單說明】 [0025] 圖1,為本創作立體分解示意圖。 [0026] 圖2,為本創作剖面分解示意圖。 [0027] 圖3,為本創作剖面實施裝設示意圖。 [0028] 圖4,為本創作立體組裝示意圖。 [0029] 圖5,為本創作剖面組裝完成示意圖。 【主要元件符號說明】 [0030] 1....... ......發光二極體嵌燈 [0031] 11....... [0032] 111...... ......投光部 [0033] 112...... ......基座部 第9頁/共17頁 1012031105-0 10120961 产單編號 A〇101 M441070 [0034] 113...... .......第一連接部 [0035] 114...... .......電性連接線 [0036] 115...... .......第一夾掣面 [0037] 116...... .......輔助作動部 [0038] 12...... .......散熱基座 [0039] 121...... .......第二連接部 [0040] 122...... .......第一散熱部 [0041] 123...... .......穿設孔 [0042] 124...... .......第二夾掣面 [0043] 125...... .......第二散熱部 [0044] 126...... [0045] 2....... .....建築壁板 [0046] 21...... ......裝飾表面 [0047] 22...... ......遮蔽表面 [0048] 23...... ......裝設孔 1匪961#單编號A〇101 第10頁/共17頁 1012031105-0The clamping surface and the second clamping surface enable the creation to be clamped on the 1st page/total page, sigh; I 1012031105-0 M.441070 building siding, and compared to the application The design of the card engine structure, this creation provides a more stable set of methods. In the implementation of the present invention, the waste heat generated by the light source module is dissipated in the air through the heat dissipation base, and the waste heat is further transmitted through the building wall panel by using the first clamping surface. [0023] Therefore, this creation is highly progressive and meets the requirements for applying for a new type of patent. 提出 Applying according to law, the Prayer Council will grant patents as soon as possible. [0024] The present invention has been described in detail above, but the above is only a preferred embodiment of the present invention, and the scope of the present invention cannot be limited. All changes and modifications made in accordance with the scope of this new application shall remain within the scope of this new patent. BRIEF DESCRIPTION OF THE DRAWINGS [0025] FIG. 1 is a schematic exploded perspective view of the present invention. 2 is an exploded perspective view of the creation. [0027] FIG. 3 is a schematic view showing the installation of the creation section. [0028] FIG. 4 is a schematic diagram of the three-dimensional assembly of the creation. [0029] FIG. 5 is a schematic view showing the assembly of the creation section. [Description of main component symbols] [0030] 1.............Light-emitting diode downlight [0031] 11....... [0032] 111...... ......Projecting Department [0033] 112............Base section Page 9 of 17 Page 1012031105-0 10120961 Order No. A〇101 M441070 [0034] 113 ............The first connection part [0035] 114..................Electrical connection line [0036] 115... ..... first clamping surface [0037] 116...... ....... auxiliary actuation part [0038] 12...... ....... [0039] 121...............Second connection portion [0040] 122.................. First heat dissipation portion [0041] 123.... .. .......through holes [0042] 124..................Second folder surface [0043] 125............ Second heat dissipating part [0044] 126... [0045] 2.............. Building siding [0046] 21............ Decorative surface [0047] 22...... ......shading surface [0048] 23...... ...... installation hole 1匪961#单号A〇101 10 pages / total 17 pages 1012031105-0