該銘擠型散熱管1採用銘擦方式製造且概呈矩形卜 管狀’該_型散熱管丨包括複數散熱w u,及複數: 複數螺絲7分別螺鎖的凹孔12。 八 配”閱圖2 ’該散熱板2透過該等螺絲7螺鎖於該銘 播型散熱管i的頂面’且該散熱板2用於供__咖電路板 8安裝’該散熱板2與該LED電路板8間塗佈有散熱膏。 該等螺絲7分別對應螺鎖於該紹擠型散熱管i的凹孔 Π中,而由於在本第一較佳實施例中該等螺絲7採用鐵板 牙螺絲’藉由該等螺絲7的硬度大於該轉型散熱管i,因 而能夠直接螺鎖於凹孔12中,不需在該等凹孔12上攻牙 ,避免二次加工,有效控制該鋁擠型散熱管丨的製造成本 〇 該電源座3包括一插置於該鋁擠型散熱管i中的插置 部31、一連接該插置部31且以該等螺絲7螺鎖於該鋁擠型 散熱營1底面的凸緣板32、一自該凸緣板32向下延伸的接 電延伸部33,及一螺接於該接電延伸部33上的電接頭34 〇 該電源座3的插置部31、凸緣板32與該接電延伸部 33 —體成型且為散熱塑膠材質製成,該插置部Μ用於供一 電源模組9設置於内,且該電源模組9與該插置部31間灌 注絕緣非磁導熱膠,該電源模組9所產生的熱經由絕緣非 磁導熱膠傳導至該電源座3,透過此散熱路徑讓該電源模組 9維持在較低溫的工作狀態。 配合參閱圖4,該電源座3還包括一偏心開設於該接電 M438600 延伸部33底面的開口 35、一鄰近該開口 35設置於該接電 延伸部33側面的容線槽36、一設置於該開口 35中的防溢 膠塾37’及二凹設於該凸緣板32的卡槽38。利用將其中 一條電線容置於該容線槽36中,當該電接頭34螺接於該 接電延伸部33時達到與電線的電連接。 該防溢膠墊37具有二電線穿孔371、一位於該接電延 伸部33内的小徑部372、一位於該接電延伸部33外的大徑 部373 ’及一位於該小徑部372與大徑部373間的凹環374 ’透過該小徑部372、凹環374與該大徑部373的尺寸設計 使得該防溢膠墊37易組裝且組裝後的穩定性佳,另外,該 等電線穿孔371的内徑自該小徑部372至該大徑部373逐 漸縮小’藉此能防止電線滑移且能進一步防止溢膠。 該對接續端子4分別與該電源模組9及該LED電路板 8電連接,該對接續端子4能相對彼此拆組地設置於該電源 模組9與該LED電路板8間,因此,當該電源模組9損壞 而需進行替換時,該電源模組9與該LED電路板8間無需 重新知接形成電連接,而能夠透過該對接續端子4彼此間 地拆組而形成電連接,確實可以簡化維修且不會造成產品 瑕疵。 該接續4子4套接於該電源座3外,該叙擠型散熱管J 與散熱板2設置於該鏤空絕緣殼5内,該鏤空絕緣殼$包 括複數有助於空氣對流散熱的鏤空透氣孔51、一夾置於該 電源座3接電延伸部33與電接頭34間的定位板52、複數 鄰近該燈罩6的定位槽53,及二分別對應卡嵌於該㈣板 6 M438600 的該等卡槽38中的卡塊54,該定位板52透過該電接 頭34螺接於該接t延伸冑33 #使該定位板52《到轴 緊。 該燈罩6安裝於該鏤空絕緣殼5上,該燈罩6包括複 數分別對應定位於該等定位槽53中的定位塊61,該散熱板 2則夾置於該燈罩6與該鏤空絕緣殼5間。 參閱圖5,本新型的模組化LED散熱燈具的第二較佳 實施例與該第一較佳實施例構件與組裝方式大致相同,不 同處在於該第二較佳實施例中不包含該鏤空絕緣殼5,該散 熱板2包括一環壁21及複數位於該環壁21上的定位槽u ,該燈罩6的該等定位塊η則分別對應定位於該等定位槽 22中。該第二較佳實施例適用於作為崁燈使用,能夠配合 不同深度的崁燈來切成不同長度的鋁擠型散熱管1。 綜上所述,本新型模組化LED散熱燈具的優點如下: 一、 透過使用鋁擠方式製造該鋁擠型散熱管丨,且該鋁 擠型散熱管1不需二次加工即能供該散熱板2及該電源座3 安裝,確實達成降低製造成本的功效。 二、 該鋁擠型散熱管1、散熱板2與該電源座3間皆採 用螺鎖的方式安裝,彼此間可便利地拆解,以達到便於維 修的目的。 三、 該電源模組9與該LED電路板8間採用該對接續 端子4,使得更換電源模組9時無需重新焊接,簡化維修且 不會造成產品瑕疫。 惟以上所述者,僅為本新型之較佳實施例而已,當不 7 M438600 能以此限定本新型實施之範圍,即大凡依本新型申請專利 範圍及新型制内容所作之簡單的等效變化與修飾,皆仍 屬本新型專利涵蓋之範圍内。 【圖式簡單說明】 圖1是立體分解圖,說明本新型模組化LED散熱燈具 的第一較佳實施例; ' 圖2是頂視圖,說明本第一較佳實施例的一銘擠型散 熱管及一散熱板; 圖是aJ視圖,說明本第一較佳實施例的該紹擠型散 :管、散熱板、-電源座、_對接續端子、—鐘空絕緣殼 圖4是剖視圖 該鏤空絕緣殼;及 圖5是剖視圖 二較佳實施例。 說明本第一較佳實施例的該電源座與 說明本新型模組化LED散熱燈具的第The squeezing type heat-dissipating tube 1 is manufactured by an ordinary rubbing method and has a rectangular shape. The _-type heat-dissipating tube 丨 includes a plurality of heat-dissipating heats, and a plurality of concave holes 12 which are respectively screwed by the plurality of screws 7.八配" Read Figure 2 'The heat sink 2 is screwed to the top surface of the Ming type heat pipe i through the screws 7 and the heat sink 2 is used for mounting the heat sink 2 A heat dissipating paste is applied between the LED circuit board 8. The screws 7 are respectively screwed into the recessed holes of the squeeze heat pipe i, and the screws 7 are in the first preferred embodiment. The use of the iron plate screws 'by the hardness of the screws 7 is greater than the transformation heat pipe i, so that it can be directly screwed into the recessed holes 12, no need to tap on the recessed holes 12, avoid secondary processing, and effectively control The manufacturing cost of the aluminum extruded heat sink tube includes a plug portion 31 inserted in the aluminum extruded heat pipe i, a connecting portion 31, and the screw 7 is screwed to the screw a flange plate 32 on the bottom surface of the aluminum extrusion type heat dissipation camp 1, a power extension portion 33 extending downward from the flange plate 32, and an electrical connector 34 screwed to the power extension portion 33. The insertion portion 31 of the seat 3, the flange plate 32 and the electrical extension portion 33 are integrally formed and made of a heat-dissipating plastic material, and the insertion portion is used for a power supply module. 9 is disposed in the interior of the power module 9 and the interposing portion 31 is filled with an insulating non-magnetic thermal conductive adhesive. The heat generated by the power module 9 is transmitted to the power supply base 3 via the insulating non-magnetic thermal conductive adhesive. The power supply module 9 is maintained in a lower temperature state. The power supply base 3 further includes an opening 35 eccentrically disposed on the bottom surface of the extension portion 33 of the power receiving M438600, and is disposed adjacent to the opening 35. a retaining groove 36 on the side of the extension portion 33, an anti-overfill 37' disposed in the opening 35, and two slots 38 recessed in the flange plate 32. By accommodating one of the wires In the capacitor slot 36, the electrical connection is reached when the electrical connector 34 is screwed to the electrical extension portion 33. The anti-overflow pad 37 has two wire through holes 371 and one of the electrical extension portions 33. The small diameter portion 372, a large diameter portion 373' located outside the power extension portion 33, and a concave ring 374' located between the small diameter portion 372 and the large diameter portion 373 pass through the small diameter portion 372 and the concave ring 374. The large diameter portion 373 is sized such that the overflow resistant pad 37 is easy to assemble and has good stability after assembly. In addition, the inner diameter of the wire through-holes 371 is gradually reduced from the small-diameter portion 372 to the large-diameter portion 373, thereby preventing the wires from slipping and further preventing the overflow. The pair of the connection terminals 4 and the power module 9 are respectively The LED circuit board 8 is electrically connected to the LED circuit board 8. The pair of connection terminals 4 can be disposed between the power module 9 and the LED circuit board 8 in a disassembled manner. Therefore, when the power module 9 is damaged and needs to be replaced, The power module 9 and the LED circuit board 8 can be electrically connected to each other without being re-connected, and can be electrically connected to each other through the pair of connection terminals 4, which can simplify the maintenance and prevent product defects. The splicing type heat dissipation tube J and the heat dissipation plate 2 are disposed in the hollow insulation case 5, and the hollow insulation case includes a plurality of hollow vent holes for facilitating air convection heat dissipation. 51. A positioning plate 52 interposed between the power extension base 33 and the electrical connector 34, a plurality of positioning slots 53 adjacent to the lamp cover 6, and two corresponding cards respectively embedded in the (4) board 6 M438600 a card block 54 in the card slot 38, the positioning plate 52 is transmitted through the electrical connection The head 34 is screwed to the extension 胄 33 # to cause the positioning plate 52 to "tighten". The lamp cover 6 is mounted on the hollow insulating case 5, and the lamp cover 6 includes a plurality of positioning blocks 61 respectively corresponding to the positioning grooves 53. The heat dissipation plate 2 is interposed between the lamp cover 6 and the hollow insulating case 5. . Referring to FIG. 5, the second preferred embodiment of the modular LED heat sink of the present invention is substantially the same as the assembly and assembly of the first preferred embodiment, except that the hollowing out is not included in the second preferred embodiment. Insulating housing 5, the heat dissipating plate 2 includes a ring wall 21 and a plurality of positioning slots u located on the ring wall 21, and the positioning blocks η of the lamp cover 6 are respectively positioned in the positioning slots 22. The second preferred embodiment is suitable for use as a xenon lamp and can be cut into different lengths of aluminum extruded heat pipe 1 in accordance with xenon lamps of different depths. In summary, the advantages of the novel modular LED heat sink are as follows: 1. The aluminum extruded heat pipe is manufactured by using an aluminum extrusion method, and the aluminum extruded heat pipe 1 can be supplied without secondary processing. The heat sink 2 and the power supply stand 3 are installed, and the effect of reducing the manufacturing cost is indeed achieved. 2. The aluminum extruded heat pipe 1, the heat sink 2 and the power base 3 are all installed by screw locks, and can be easily disassembled from each other for the purpose of maintenance. 3. The pair of connection terminals 4 are used between the power module 9 and the LED circuit board 8, so that the power module 9 is replaced without re-welding, which simplifies maintenance and does not cause product plague. However, the above is only a preferred embodiment of the present invention. When 7 M438600 can limit the scope of the present invention, that is, the simple equivalent change made by the novel patent application scope and the new system content. And modifications are still within the scope of this new patent. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view showing a first preferred embodiment of the modular LED cooling device of the present invention; FIG. 2 is a top view showing a preferred embodiment of the first preferred embodiment. The heat dissipating tube and a heat dissipating plate; the figure is aJ view, illustrating the squeezed type of the first preferred embodiment: tube, heat sink, power socket, _ splicing terminal, bell air insulating shell, FIG. 4 is a cross-sectional view The hollow insulating shell; and FIG. 5 is a cross-sectional view of the preferred embodiment. The power socket of the first preferred embodiment and the first embodiment of the modular LED heat dissipation lamp are described.