M287964 八、新型說明: 【新型所屬之技術領域】 之散熱器結構, 之散熱器結構, 、表面沾污,以 尤指一種具 具有改善規 ®應電子元 本創作係關於一種具色彩2 顯色防護膜層之散熱鰭片組成j 格辨識性及可防止氧化、腐蝕、 件及電子裝置匹配散熱設置之具色和之散熱器結構 【先前技術】 已知目M287964 VIII. New description: [New technical field] The structure of the radiator, the structure of the radiator, the surface contamination, especially the type of the electronic unit created with the improved specification The heat-dissipating fins of the protective film layer form a j-grid and a heat-retaining structure that can prevent oxidation, corrosion, matching of components and electronic devices, and the heat-dissipating arrangement [Prior Art]
包括資料存取單元,如硬碟機、資料碩寫裝置等之散熱, 都是透過散熱器或者更搭配以風扇配置,以作為動作所產 生之熱的傳遞與發散,在散熱器的"又计與四配選用上將直 接反應電子元件或電子裝置熱傳遞與毛政效率’所以有良 好的設計及匹配選用,將會提畀散熱器之熱傳與發散效 又知目前該電子元件,如CPU等及電子裝置,包括資 料存取單元等,會因各不同製造業者而有不同的規格設 計’散熱器為能與各電子元件或電子裝置熱源端獲得良好 的熱接合,當然也必需根據不同的規格或型式設計相匹配 的底座型式與規袼,以供正確的選取適用匹配之散熱器規 格配置使用。 惟習知常見的各種典型散熱器結構,多相同以多數具 N $熱係數之同型式金屬散熱鰭片或鰭片組,配合沖壓製 5 M287964 程直接結合於不同適用規格設計之底座,或者結合於一熱 導管,該熱導管係結合於不同適用規格設計之底座上,以 構成適用不同規格及型式之散熱器;但習知製程之不 格及型式之散敎哭一 B A xm 、 口 …、的旦在運运或存置過程中相混置下, 非散熱器本身之體積指执又曰 -- Μ 規格不同’否則對於同體積但不同底 座規格之散熱器,並不#於_ ⑽ A ^知組成散埶哭 之多數散熱鰭片,多僅是高 " 系數金屬片體沖製成 •型,且不再進行任何的表面處 又尽,使得散埶鍵Η 在使用一段時間後,常合產座矣;—— ……^片 ^ d生表面之氧化,尤其是銅材質 製成品,以及腐蝕或者表面之沾 T進而影響其熱發散效 率,再者習知散熱器不外乎為+ 煎政 , 十為奴金屬顏色,缺乏現今消 費者講求之色彩活力與美觀性。 【新型内容】 本新型之主要目的,在提供 1王,、巴办之散敎哭社 ►構,主要係利用經陽極處理技 ^及配合雷射雕刻技術在 各金層片體上形成相同或不同色彩,或者圖樣、文字之防 護膜層的多數散熱.鰭片,對應至少—設置於底座上的熱導 官結合-體’形成具高辨識性之散熱器結構,對於散教 器,改善其規格辨識上的困難與易氧化、腐钱等問題,: 提供使用者更簡便規格辨 歇仁回杬虱化、沾污及耐 腐蝕之實用散熱器結構。 為達上述之目的,本新 新型之具色彩之散熱器結構, 6 M287964 _ 其結構包括: 一底座;至少一熱導管,結合於上述底座一表面; 多數散熱鰭片,於其表面或者周邊透過陽極處理技術 形成具色彩之防護膜層。 又為達上述之目的,本新型之另一具色彩之散熱器結 構,其結構包括:一底座;至少一熱導管,結合於上述底 座一表面;多數散熱鰭片,於其表面透過陽極處理技術及 Φ雷射雕刻技術,形成具色彩、圖樣、文字之其一或者混合 式之防護膜層。 在本新型一較佳實施例中,該多數散熱鰭片係以具相 同色彩防護膜層之單片,透過沖壓製程結合於底座或熱導 管之其一。 在本新型一較佳實施例中,該多數散熱鰭片係以具不 同色彩防護膜層之單片,透過沖壓製程結合於底座或熱導 籲管之其一。 在本新型一較佳實施例中,該多數散熱鰭片係以具相 同色彩防護膜層之多片散熱鰭片,預結合形成至少一散熱 鰭片組體,透過沖壓製程結合於底座或熱導管之其一。 在本新型一較佳實施例中,該多數散熱鰭片係以具相 同色彩防護膜層之單片預結合形成至少一散熱鰭片組 體,再由多數具不同色彩防護膜層之散熱鰭片組體,透過 沖壓製程結合於底座或熱導管之其一。 7 M287964 請參閱以下有關本新型一較佳實施例 j又坪細說明及 其附圖,將可進一步瞭解本新型之技術内交 Ί谷及其目的功 效;有關該實施例之附圖。 【實施方式】 明如下: 請參閱第一、二、 熱器結構一實施例之組 具色彩之散熱器結構包括有:一底座1 ·处 .〜王 ,、、、口 〇 卜、十、广 、 熱導管2;及多數結合於熱導瞢9底 仏氏座 . Ζ外部之散執 成一具顯色辨識規格及可阶l & …、 三圖所示,係本新型 土 <具色彩之嵛 成結構不意圖。如圖 妊右· ^ ^ ,間所不·本新型 1之至少 、4 &。 σ 热等管2外部之散勒 ,以構成一具顯色辨識規格及可防 ? …、 軍L 4匕、肩ξ· 表面沾污之散熱器,以因應不同規格之帝 ^ Λ 罢足从ΠΓ斯、登m ^包子兀件及電子穿 置易於匹配選用設置。 巧丁衣 所述之底座1 ,係為一具高導熱係數 、 孟屬製成品, 一端表面,或者設有一凹槽以供上述熱導总 、 吕d之導熱端2 1固設一體,底座1另一表面則成型為對應 丨J包子7L件 及電子裝置相匹配之型式,以緊密與電子分处η 丁兀仵及電子裝置 熱接合傳遞熱能。 上述所提之多數散熱鰭片3,係以高導熱係數之金屬 片體3 1,透過陽極處理技術,在散熱鰭片3表面形成一 氧化膜,迆藉由變化二極電壓控制,而在散熱鰭片3上形 成各種不同色彩與厚度之防護膜層3 2,以保護該散熱鰭 片3,抗氧化、沾污及耐腐蝕,同時增加散熱鰭片3表面 8 M287964 “ 之平整性與色彩美觀性;又該防護膜層3 2係為極薄之 氧化膜,包含縝密之氣孔,而不會影響散熱鰭片3之熱 散效皞。 上述該陽極處理技術所形成之防護膜層3 2,在具 的實施例結構上,是可以成型於散熱鰭片3之表面,或 其周邊之其一。 另上述在陽極處理製程中,更可配合雷射雕刻技術 φ各氧化膜層上定義各種圖樣或文字,以形成具有色彩、 樣、文字(例如P4、AMD等)之其一,或其混合式之防 膜層3 2,更易於透過色彩及圖案或文字以辨識不同的 熱器規格。 上述經陽極處理形成色彩,或配合圖案、文字之多 散熱鰭片3,在一具體實施例結構中,係以具相同、或 同色彩防護膜層3 2之單片散熱鰭片3,對應熱導管2 鲁一沖壓製程中,配合沖壓模具之施作而結合一體,並在 順序的沖壓製程而結合形成具色彩之散熱器。 在其他具體實施例結構中,如第二、三圖所示,該 數經陽極處理形成色彩,或配合圖案、文字之散熱鰭 3,當然亦可利用其側端成型之扣組元件3 3,將多數 相同色彩防護膜層3 2之相鄰散熱鰭片3,預先結合形 一同色彩之散熱鰭片組體4,再將該同色彩之散熱鰭片 體4,或者多數不同色彩防護膜層32、32’ 、32 發 體 者 在 圖 護 散 數 不 於 經 多 片 具 成 組 9 M287964 -之散熱鰭片組體4、4 ’ 、4 ” ,對應熱導管2於一沖壓 製程中,配合沖壓模具之施作而結合一體形成一具單色 彩,或者多層色彩之散熱器。 由於組成散熱器之多數散熱鰭片3,係經過陽極處理 技術,或更可配合雷射雕刻技術在各氧化膜層上定義各種 圖樣或文字,以形成具有色彩、圖樣、文字之其一,或其 混合式之防護膜層3 2的散熱鰭片3,使散熱鰭片3具有 春高抗氧化、沾污及耐腐蝕性。 同時由該陽極處理技術於製程中,利用變化二極電壓 控制及處理時間,而控制氧化膜所形成之防護膜層3 2之 不同色彩與厚度,使可直接透過相同色彩防護膜層3 2的 散熱鰭片3,或者不同色彩防護膜層32、32”的散熱 鰭片3 ,結合熱導管2等組成散熱器,以輕易直接由色彩 來區別與辨識其適用規格,並增加散熱器之多色彩的美觀 •性。 請參閱第四、五圖所示,係本新型之具色彩之散熱器 結構另一實施例之組成結構示意圖。如圖所示:本實施例 與上述第一圖大致相同,所不同處在於該多數已經陽極處 理技術,或更可配合雷射雕刻技術在各氧化膜層上定義各 種圖樣或文字,以形成具有色彩、圖樣、文字之其一,或 其混合式之防護膜層3 2的散熱鰭片3,係直接排列結合 於一底座1 一表面,或藉扣組元件3 3構成多數散熱鰭片 組體4、4 ”以定位於底座1上形成具相同或者不同色彩 10 M287964 防護膜層32、32”的散熱器。 上列詳細說明係針對本新型之一可行實施例之 說明,惟該實施例並非用以限制本新型之專利範圍, 脫離本新型技藝精神所為之等效實施或變更,例如: 化之等效性實施例,均應包含於本案之專利範圍中 綜上所述,本案不但在其結構型態上確屬創新, 較習用同類物品增進上述多項功效,應已充分符合新 及進步性之法定新型專利要件,爰依法提出申請, 貴局核准本件新型專利申請案,以勵創作,至感德 具體 凡未 等變 並能 穎性 懇請Including the data access unit, such as the hard disk drive, the data master device, etc., the heat dissipation is through the heat sink or more with a fan configuration, as the heat transfer and divergence generated by the action, in the heat sink " The meter and the four-selection will directly react to the heat transfer of the electronic components or electronic devices and the efficiency of the hair management. Therefore, there is a good design and matching selection, which will improve the heat transfer and divergence of the heat sink, and know the current electronic components, such as CPUs and other electronic devices, including data access units, are designed with different specifications for different manufacturers. 'The heat sink can be well connected to the heat source of each electronic component or electronic device. Of course, it must be different. The specification and type design match the base type and gauge for proper selection for the matching radiator specification configuration. However, the various typical radiator structures that are commonly known are similar to the same type of metal heat sink fins or fin sets with N $ thermal coefficient, combined with the stamped 5 M287964 process directly combined with the base of different applicable specifications, or combined In a heat pipe, the heat pipe is combined with a base of different applicable specifications to form a heat sink of different specifications and types; but the conventional process is not limited and the type of the crying is a BA xm, mouth... Once the transport or storage process is mixed, the volume of the non-heatsink itself is 曰-- Μ different specifications' Otherwise, for the same size but different base specifications of the radiator, not #__ (10) A ^ Knowing that most of the heat-dissipating fins that make up the smashing cry are mostly high-quote metal sheets that are made into a type, and no longer carry out any surface, so that the 埶 key is often used after a period of use. Production seat 矣;—— ......^片^ d The oxidation of the surface, especially the copper material, and the corrosion or the surface of the T to affect its heat dissipation efficiency, and the conventional radiator is nothing more than + Frying politics, Ten is a slave metal color, lacking the color vitality and aesthetics that today's consumers are demanding. [New content] The main purpose of this new type is to provide the 1st, and the Banzhi's Sanshou Crying Society ► mainly using the anodizing technique and the laser engraving technique to form the same on each gold layer. Different colors, or most of the heat dissipation of the protective film layer of the pattern and the text. The fins correspond to at least the heat guide body-body disposed on the base to form a highly recognizable heat sink structure. Difficulties in specification identification and problems such as easy oxidation and rotten money, etc.: Provides a user-friendly specification for a practical heat sink structure that can be used to distinguish, repel, and resist corrosion. For the above purposes, the new type of color heat sink structure, 6 M287964 _ its structure includes: a base; at least one heat pipe, combined with a surface of the base; most of the heat sink fins, through its surface or periphery The anodizing technique forms a colored protective film layer. For the purpose of the above, another color heat sink structure of the present invention comprises: a base; at least one heat pipe coupled to a surface of the base; and a plurality of heat radiating fins through which anodization technology is applied And Φ laser engraving technology to form a protective film layer with color, pattern, text or mixed type. In a preferred embodiment of the present invention, the plurality of heat dissipating fins are bonded to the base or the heat pipe through a stamping process by a single piece having the same color protective film layer. In a preferred embodiment of the present invention, the plurality of heat-dissipating fins are bonded to the base or the heat-guiding tube through a stamping process by a single piece having different color protective film layers. In a preferred embodiment of the present invention, the plurality of heat dissipating fins are pre-bonded to form at least one fin assembly by a plurality of fins having the same color protective film layer, and are coupled to the base or the heat pipe through a stamping process. One of them. In a preferred embodiment of the present invention, the plurality of heat dissipating fins are pre-bonded with a single piece of the same color protective film layer to form at least one heat dissipating fin set body, and then a plurality of heat dissipating fins having different color protective film layers are further formed. The assembly is bonded to one of the base or the heat pipe through a stamping process. 7 M287964 Please refer to the following description of a preferred embodiment of the present invention, and a detailed description of the present invention, and a drawing thereof, which will further understand the present technology and the purpose of the present invention; and the drawings of the embodiment. [Embodiment] It is as follows: Please refer to the first, second, and heat exchanger structure. The heat sink structure of the group includes: a base 1 · a place. ~ king,,,, mouth, and ten, ten, wide , heat pipe 2; and most combined with the heat guide 瞢 9 bottom 仏 .. Ζ external scatter into a color recognition specification and can be stepped l & ..., three pictures, the new soil < with color It is not intended to be a structure. As shown in the figure, right and left ^ ^ ^, the difference between the new type 1 and 4 & σ heat and other external 2 of the tube to form a color identification specification and preventable? ..., Army L 4匕, shoulder blade · Surface-contaminated radiator, in response to different specifications of the Emperor Λ 罢 ΠΓ ΠΓ ΠΓ ΠΓ ΠΓ ΠΓ ΠΓ ΠΓ 、 、 、 、 、 、 、 、 登 登 登 登 登 登 登 登 登 登 登 、 、 、 、 、 、 、 The base 1 described by Qiaodingyi is a high thermal conductivity, manufactured by Mengzi, one end surface, or provided with a groove for fixing the heat conduction end of the above-mentioned thermal conduction total, Lu, and the base 1 The other surface is shaped to correspond to the 7L piece of the 丨J bun and the matching pattern of the electronic device to thermally transfer the thermal energy to the electronic junction η 兀仵 and the electronic device. The heat dissipating fins 3 mentioned above are made of a metal sheet body 3 1 having a high thermal conductivity by anodizing technology to form an oxide film on the surface of the heat dissipating fin 3, and the heat is dissipated by changing the voltage of the two electrodes. A protective film layer 32 of various colors and thicknesses is formed on the fins 3 to protect the heat dissipation fins 3 from oxidation, staining and corrosion resistance, and at the same time increase the surface of the heat dissipation fins 3 8 M287964 "flatness and color appearance" The protective film layer 32 is an extremely thin oxide film containing dense pores without affecting the heat dissipation effect of the heat dissipation fins 3. The protective film layer 32 formed by the above anodizing technique, In the structure of the embodiment, it can be formed on the surface of the heat dissipation fin 3, or one of its periphery. In the above anodizing process, various patterns can be defined on each oxide film layer of the laser engraving technology. Or text to form one of colors, samples, characters (for example, P4, AMD, etc.), or a hybrid film layer 32 thereof, which is more apt to pass through colors and patterns or characters to identify different heat gauge specifications. Via the anode Forming a color, or matching a plurality of heat-dissipating fins 3 of a pattern or a character, in a specific embodiment, a single-piece heat-dissipating fin 3 having the same or the same color protective film layer 32, corresponding to the heat pipe 2 In the stamping process, combined with the application of the stamping die, and combined with the sequential stamping process to form a colored heat sink. In other specific embodiment structures, as shown in the second and third figures, the number of anodes The heat-dissipating fins 3 which are formed into colors, or matched with patterns and characters, can of course be combined with the adjacent heat-dissipating fins 3 of the same color protective film layer 32 by using the side-formed buckle elements 3 3 . The heat-dissipating fin assembly 4 of the color, and the heat-dissipating fins 4 of the same color, or the majority of the different color protective film layers 32, 32', 32, are not in the group 9 M287964 - The heat sink fin assembly 4, 4 ', 4", corresponding to the heat pipe 2 in a stamping process, combined with the application of the stamping die to form a single color, or multi-layer color radiator. Since most of the heat dissipating fins 3 constituting the heat sink are subjected to an anodizing technique or a laser engraving technique, various patterns or characters can be defined on each oxide film layer to form one of colors, patterns, and characters, or The heat dissipating fins 3 of the mixed protective film layer 32 have the heat-dissipating fins 3 having high oxidation resistance, staining and corrosion resistance. At the same time, the anode treatment technology uses the varying two-pole voltage control and processing time to control the different colors and thicknesses of the protective film layer 32 formed by the oxide film so as to directly pass through the same color protective film layer 32. The heat dissipating fins 3, or the heat dissipating fins 3 of the different color protective film layers 32, 32", combined with the heat pipe 2 and the like constitute a heat sink, so as to easily distinguish and identify the applicable specifications directly by the color, and increase the multi-color of the heat sink. The appearance and structure of the present invention are shown in the fourth and fifth figures. The difference is that most of the anodizing techniques have been used, or more various laser patterns can be used to define various patterns or characters on each oxide film layer to form a protective film having a color, a pattern, a character, or a hybrid thereof. The heat dissipating fins 3 of the layer 3 2 are directly arranged and coupled to a surface of a base 1 or the plurality of heat dissipating fin assemblies 4, 4 are formed by the decoupling group elements 3 3 to be positioned on the base 1 A heat sink having the same or different color 10 M287964 protective film layers 32, 32". The above detailed description is directed to one of the possible embodiments of the present invention, but the embodiment is not intended to limit the scope of the patent of the present invention. Equivalent implementation or change of the new artistic spirit, for example: the equivalent embodiment of the invention should be included in the scope of the patent in this case. This case is not only innovative in its structural form, but also similar in its own use. Articles to enhance the above-mentioned multiple functions, should have fully complied with the new and progressive statutory new patent requirements, and apply in accordance with the law, the Office approved this new patent application, to encourage creation, to the specific meaning of the change and the ability Please
M287964 【圖式簡單說明】 第一圖為本新型一實施例單片組裝之立體分解圖。 第二圖為本新型另一實施例之立體分解圖。 第三圖為本新型另一實施例之組合示意圖。 第四圖為本新型又一實施例之立體分解圖。 第五圖為本新型又一實施例之組合示意圖。 【主要元件符號說明】 底座 1 熱導管 2 散熱鰭片 3 散熱鰭片組體 4、4 ’ 、4 ” 金屬片體 31 防護膜層 32、32’、32 扣組元件 33M287964 [Simple Description of the Drawings] The first figure is an exploded perspective view of a single piece assembly according to an embodiment of the present invention. The second figure is an exploded perspective view of another embodiment of the present invention. The third figure is a schematic view of the combination of another embodiment of the present invention. The fourth figure is an exploded perspective view of still another embodiment of the present invention. The fifth figure is a schematic view of a combination of still another embodiment of the present invention. [Main component symbol description] Base 1 Heat pipe 2 Heat sink fins 3 Heat sink fins 4, 4 ′, 4 ” Metal plate 31 Protective film layer 32, 32', 32 Buckle element 33
1212