TWM512728U - Fluid cooling type heat dissipation device - Google Patents
Fluid cooling type heat dissipation device Download PDFInfo
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- TWM512728U TWM512728U TW104210143U TW104210143U TWM512728U TW M512728 U TWM512728 U TW M512728U TW 104210143 U TW104210143 U TW 104210143U TW 104210143 U TW104210143 U TW 104210143U TW M512728 U TWM512728 U TW M512728U
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Description
本創作係有關於一種散熱裝置,尤指一種流體冷卻式散熱裝置。This creation relates to a heat sink, especially a fluid cooled heat sink.
LED、中央處理器等電子發熱元件,隨著運作效能越來越高,其產生的熱量也日益增加,為防止電子發熱元件過熱而影響運作效率,多會搭配散熱器貼接於電子發熱元件,以幫助電子發熱元件順利散熱。LEDs, central processing units and other electronic heating elements, as the operating efficiency is higher and higher, the heat generated by them is increasing. To prevent the electronic heating elements from overheating and affecting the operating efficiency, the heat sinks are attached to the electronic heating elements. To help the electronic heating element to cool heat.
然而,傳統散熱器多藉由散熱鰭片、熱管或均溫板貼接於電子發熱元件,但部分電子發熱元件產生的熱量過高,導致一般散熱鰭片、熱管或均溫板等散熱器無法滿足所需的散熱需求。However, the conventional heat sink is often attached to the electronic heating element by the heat sink fin, the heat pipe or the temperature equalizing plate, but the heat generated by some of the electronic heating elements is too high, so that the heat sink such as the heat sink fin, the heat pipe or the temperature equalizing plate cannot be used. Meet the required cooling needs.
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,盡力解決上述之問題點,即成為本創作人改良之目標。In view of this, the creator has made great efforts to solve the above problems by focusing on the above-mentioned prior art, and has devoted himself to the application of the theory, that is, the goal of the creator's improvement.
本創作之ㄧ目的,在於提供一種流體冷卻式散熱裝置,其係利用工作流體透過貫通孔導引而主動衝擊受熱段,讓工作流體能快速接收熱段的熱量,進而提升流體冷卻式散熱裝置之散熱效率。The purpose of this creation is to provide a fluid-cooled heat sink that actively guides the heated section by the working fluid passing through the through-hole, so that the working fluid can quickly receive the heat of the hot section, thereby improving the fluid-cooling heat sink. Cooling efficiency.
為了達成上述之目的,本創作係提供一種流體冷卻式散熱裝置,用於一發熱元件,該流體冷卻式散熱裝置包括:一外管,具有一受熱段及一出液端,所述發熱元件固定並貼接於該受熱段;一內管,具有一穿設段及一入液端,該穿設段穿設且埋設於該外管內部,該穿設段設有對應該受熱段設置的複數貫通孔,該內管的截面積大於該等貫通孔的截面積之總和;以及一工作流體,自該入液端依序流向該穿設段、該等貫通孔、該外管及該出液端。In order to achieve the above object, the present invention provides a fluid-cooling heat sink for a heating element, the fluid-cooling heat sink comprising: an outer tube having a heated section and a liquid outlet, the heating element being fixed And attached to the heated section; an inner tube having a through section and a liquid inlet end, the through section is pierced and embedded in the outer tube, and the through section is provided with a plurality of corresponding heat receiving sections a through hole having a cross-sectional area larger than a total cross-sectional area of the through-holes; and a working fluid flowing from the liquid-injecting end to the through-hole, the through-hole, the outer tube, and the liquid discharge end.
本創作還具有以下功效:每一貫通孔的中心線與受熱段呈垂直配置時,工作流體與受熱段能達到最佳熱交換效率,以更加強冷卻式散熱裝置之散熱效率。The creation also has the following effects: when the center line of each through hole is vertically arranged with the heated section, the working fluid and the heated section can achieve optimal heat exchange efficiency to further enhance the heat dissipation efficiency of the cooling heat sink.
100‧‧‧發熱元件100‧‧‧heating components
10‧‧‧流體冷卻式散熱裝置10‧‧‧Fluid cooling heat sink
1‧‧‧外管1‧‧‧External management
11‧‧‧受熱段11‧‧‧heating section
12‧‧‧出液端12‧‧‧ liquid outlet
13‧‧‧主體13‧‧‧ Subject
131‧‧‧第一面131‧‧‧ first side
132‧‧‧第二面132‧‧‧ second side
133‧‧‧第一側壁133‧‧‧First side wall
134‧‧‧第二側壁134‧‧‧ second side wall
135‧‧‧透空口135‧‧‧
2‧‧‧內管2‧‧‧Inside
21‧‧‧穿設段21‧‧‧ wearing paragraphs
211‧‧‧貫通孔211‧‧‧through holes
212‧‧‧貫穿孔212‧‧‧through holes
22‧‧‧入液端22‧‧‧ liquid inlet
3‧‧‧工作流體3‧‧‧Working fluid
a、b、c‧‧‧截面積a, b, c‧‧‧ cross-sectional area
L1、L2‧‧‧中心線L1, L2‧‧‧ center line
圖1係本創作流體冷卻式散熱裝置之剖面示意圖。Figure 1 is a schematic cross-sectional view of the present fluid cooling heat sink.
圖2係本創作流體冷卻式散熱裝置之另一剖面示意圖。2 is another schematic cross-sectional view of the present fluid cooling heat sink.
有關本創作之詳細說明及技術內容,將配合圖式說明如下,然而所附圖式僅作為說明用途,並非用於侷限本創作。The detailed description and technical content of the present invention will be described below in conjunction with the drawings, but the drawings are for illustrative purposes only and are not intended to limit the present invention.
請參考圖1所示,本創作係提供一種流體冷卻式散熱裝置,用於一發熱元件100,此流體冷卻式散熱裝置10主要包括一外管1、一內管2及一工作流體3。Referring to FIG. 1 , the present invention provides a fluid cooling heat sink for a heating element 100 . The fluid cooling heat sink 10 mainly includes an outer tube 1 , an inner tube 2 , and a working fluid 3 .
外管1具有一受熱段11及一出液端12,發熱元件100固定並貼接於受熱段11。其中,發熱元件100可為發光元件、中央處理器等電子發熱元件,發光元件可為鹵素燈、發光二極體等元件。The outer tube 1 has a heated section 11 and a liquid outlet end 12, and the heat generating component 100 is fixed and attached to the heat receiving section 11. The heating element 100 may be an electronic heating element such as a light emitting element or a central processing unit, and the light emitting element may be an element such as a halogen lamp or a light emitting diode.
詳細說明如下,外管1具有一主體13,主體13具有相對的一第一面131及一第二面132,受熱段11形成在第一面131上,主體13具有相對且配置在受熱段11兩側的一第一側壁133及一第二側壁134,第一側壁133設有一透空口135,出液端12自第二側壁134朝外部方向延伸成型,出液端12與該主體13相互連通,出液端12與入液端22呈平行配置。The outer tube 1 has a main body 13 having a first surface 131 and a second surface 132 opposite to each other. The heat receiving portion 11 is formed on the first surface 131. The main body 13 has opposite bodies and is disposed in the heat receiving portion 11. A first side wall 133 and a second side wall 134 are disposed on the two sides. The first side wall 133 is provided with a transparent opening 135. The liquid discharging end 12 is formed to extend outward from the second side wall 134, and the liquid discharging end 12 communicates with the main body 13. The liquid discharge end 12 and the liquid inlet end 22 are arranged in parallel.
內管2具有一穿設段21及一入液端22,穿設段21穿設且埋設於外管1內部,穿設段21設有對應受熱段11設置的複數貫通孔211,內管2的截面積a大於所有貫通孔211的截面積b之總和。The inner tube 2 has a through portion 21 and a liquid inlet end 22, and the through portion 21 is bored and embedded in the outer tube 1. The through portion 21 is provided with a plurality of through holes 211 corresponding to the heat receiving portion 11, and the inner tube 2 The cross-sectional area a is larger than the sum of the cross-sectional areas b of all the through holes 211.
進一步說明如下,穿設段21穿設於透空口135且埋設於外管1內部,穿設段21設有對應第二面132設置的複數貫穿孔212,內管2的截面積a大於所有貫穿孔212的截面積c之總和。Further, the penetrating section 21 is bored in the air vent 135 and embedded in the outer tube 1. The penetrating section 21 is provided with a plurality of through holes 212 corresponding to the second surface 132. The cross-sectional area a of the inner tube 2 is larger than all the penetrating sections. The sum of the cross-sectional areas c of the holes 212.
此外,每一貫通孔211定義出一中心線L1,每一貫通孔211的中心線L1可與受熱段11呈垂直或傾斜配置,其中最佳化實施例為每一貫通孔211的中心線L1與受熱段11呈垂直配置。同理,每一貫穿孔212定義出一中心線L2,中心線L2也可與第二面132呈垂直或傾斜配置。In addition, each through hole 211 defines a center line L1, and the center line L1 of each through hole 211 may be vertically or obliquely arranged with the heat receiving portion 11, wherein the optimized embodiment is the center line L1 of each through hole 211. It is arranged perpendicular to the heated section 11. Similarly, each through hole 212 defines a center line L2, and the center line L2 may also be vertically or obliquely disposed with the second surface 132.
工作流體3自入液端22依序流向穿設段21、各貫通孔211、外管1及出液端12。其中,工作流體3可為水、冷媒或氣體。The working fluid 3 flows from the liquid inlet end 22 to the piercing section 21, the through holes 211, the outer tube 1 and the liquid outlet end 12 in this order. Wherein, the working fluid 3 can be water, a refrigerant or a gas.
本創作流體冷卻式散熱裝置10之組合,其係利用外管1具有受熱段11及出液端12,發熱元件100固定並貼接於受熱段11;內管2具有穿設段21及入液端22,穿設段21穿設且埋設於外管1內部,穿設段21設有對應受熱段11設置的數個貫通孔211,內管2的截面積a大於所有貫通孔211的截面積b之總和;工作流體3自入液端22依序流向穿設段21、各貫通孔211、外管1及出液端12。藉此,工作流體3透過貫通孔211導引而主動衝擊受熱段11,讓工作流體3能快速接收受熱段11的熱量,進而提升流體冷卻式散熱裝置10之散熱效率。The combination of the present fluid cooling type heat dissipating device 10 has an outer tube 1 having a heating section 11 and a liquid discharging end 12, and the heating element 100 is fixed and attached to the heating section 11; the inner tube 2 has a wearing section 21 and a liquid inlet The end portion 22 is pierced and embedded in the outer tube 1 , and the through portion 21 is provided with a plurality of through holes 211 corresponding to the heat receiving portion 11 . The cross-sectional area a of the inner tube 2 is larger than the cross-sectional area of all the through holes 211 . The sum of b; the working fluid 3 from the liquid inlet end 22 sequentially flows to the piercing section 21, the through holes 211, the outer pipe 1 and the liquid outlet end 12. Thereby, the working fluid 3 is guided through the through hole 211 to actively impact the heat receiving section 11, so that the working fluid 3 can quickly receive the heat of the heat receiving section 11, thereby improving the heat dissipation efficiency of the fluid cooling heat sink 10.
本創作流體冷卻式散熱裝置10之使用狀態,其係利用發熱元件100貼接於受熱段11並將熱量傳遞至受熱段11,工作流體3自入液端22流向穿設段21,因內管2的截面積a大於所有貫通孔211的截面積b之總和,所以工作流體3會被貫通孔211導引而主動去衝擊受熱段11,讓工作流體3與受熱段11快速且不斷進行熱交換,讓工作流體3能快速接收受熱段11的熱量,最後工作流體3被出液端12導引離開外管2以將熱量帶離受熱段11,進而提升流體冷卻式散熱裝置10之散熱效率。The state of use of the present fluid-cooling heat sink 10 is attached to the heat receiving section 11 by the heat generating component 100 and transfers heat to the heat receiving section 11, and the working fluid 3 flows from the liquid inlet end 22 to the wearing section 21, because the inner tube The cross-sectional area a of 2 is greater than the sum of the cross-sectional areas b of all the through-holes 211, so that the working fluid 3 is guided by the through-holes 211 to actively impact the heated section 11, so that the working fluid 3 and the heated section 11 are quickly and continuously exchanged heat. The working fluid 3 can quickly receive the heat of the heated section 11, and finally the working fluid 3 is guided away from the outer tube 2 by the liquid outlet 12 to carry heat away from the heated section 11, thereby improving the heat dissipation efficiency of the fluid cooling heat sink 10.
另外,每一貫通孔211的中心線L1與受熱段11呈垂直配置時,工作流體3與受熱段11能達到最佳熱交換效率,以更加強冷卻式散熱裝置10之散熱效率。In addition, when the center line L1 of each of the through holes 211 is perpendicular to the heat receiving section 11, the working fluid 3 and the heat receiving section 11 can achieve an optimum heat exchange efficiency to further enhance the heat dissipation efficiency of the cooling heat sink 10.
請參考圖2所示,係本發明流體冷卻式散熱裝置10之另一實施例,圖2之實施例與圖1之實施例大致相同,但圖2之實施例與圖1之實施例不同之處如下所述,圖1實施例之出液端12自第二側壁134朝外部方向延伸成型,圖2實施例之出液端12自第一側壁133朝外部方向延伸成型。藉此,不論出液端12自第一側壁133或第二側壁134朝外部方向延伸成型,其皆能達到相同於圖1之實施例的功能及功效。Referring to FIG. 2, which is another embodiment of the fluid-cooling heat sink 10 of the present invention, the embodiment of FIG. 2 is substantially the same as the embodiment of FIG. 1, but the embodiment of FIG. 2 is different from the embodiment of FIG. As described below, the liquid discharge end 12 of the embodiment of FIG. 1 is formed to extend outward from the second side wall 134, and the liquid discharge end 12 of the embodiment of FIG. 2 is formed to extend outward from the first side wall 133. Thereby, regardless of whether the liquid discharge end 12 is formed to extend outward from the first side wall 133 or the second side wall 134, the functions and effects similar to those of the embodiment of FIG. 1 can be achieved.
綜上所述,本創作之流體冷卻式散熱裝置,確可達到預期之使用目的,而解決習知之缺失,並具有產業利用性、新穎性與進步性,完全符合新型專利申請要件,爰依專利法提出申請,敬請詳查並賜准本案專利,以保障創作人之權利。In summary, the fluid cooling heat sink of the present invention can achieve the intended purpose of use, and solve the lack of conventional knowledge, and has industrial utilization, novelty and progress, fully comply with the requirements of new patent applications, and converts patents. If the law is filed, please check and grant the patent in this case to protect the rights of the creator.
100‧‧‧發熱元件 100‧‧‧heating components
10‧‧‧流體冷卻式散熱裝置 10‧‧‧Fluid cooling heat sink
1‧‧‧外管 1‧‧‧External management
11‧‧‧受熱段 11‧‧‧heating section
12‧‧‧出液端 12‧‧‧ liquid outlet
13‧‧‧主體 13‧‧‧ Subject
131‧‧‧第一面 131‧‧‧ first side
132‧‧‧第二面 132‧‧‧ second side
133‧‧‧第一側壁 133‧‧‧First side wall
134‧‧‧第二側壁 134‧‧‧ second side wall
135‧‧‧透空口 135‧‧‧
2‧‧‧內管 2‧‧‧Inside
21‧‧‧穿設段 21‧‧‧ wearing paragraphs
211‧‧‧貫通孔 211‧‧‧through holes
212‧‧‧貫穿孔 212‧‧‧through holes
22‧‧‧入液端 22‧‧‧ liquid inlet
3‧‧‧工作流體 3‧‧‧Working fluid
a、b、c‧‧‧截面積 a, b, c‧‧‧ cross-sectional area
L1、L2‧‧‧中心線 L1, L2‧‧‧ center line
Claims (9)
一外管,具有一受熱段及一出液端,所述發熱元件固定並貼接於該受熱段;
一內管,具有一穿設段及一入液端,該穿設段穿設且埋設於該外管內部,該穿設段設有對應該受熱段設置的複數貫通孔,該內管的截面積大於該等貫通孔的截面積之總和;以及一工作流體,自該入液端依序流向該穿設段、該等貫通孔、該外管及該出液端。A fluid-cooling heat sink for a heating element, the fluid-cooling heat sink comprising:
An outer tube having a heated section and a liquid outlet end, the heating element being fixed and attached to the heated section;
An inner tube has a through section and a liquid inlet end, the through section is bored and embedded in the outer tube, and the through section is provided with a plurality of through holes corresponding to the heat receiving section, and the inner tube is cut The area is larger than the sum of the cross-sectional areas of the through holes; and a working fluid flows from the liquid inlet end to the through-segment, the through-holes, the outer tube and the liquid-discharging end.
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TW104210143U TWM512728U (en) | 2015-06-24 | 2015-06-24 | Fluid cooling type heat dissipation device |
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TW104210143U TWM512728U (en) | 2015-06-24 | 2015-06-24 | Fluid cooling type heat dissipation device |
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TWM512728U true TWM512728U (en) | 2015-11-21 |
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