TWM558517U - Pressure resistance structure of heat dissipation device - Google Patents

Pressure resistance structure of heat dissipation device Download PDF

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Publication number
TWM558517U
TWM558517U TW106218615U TW106218615U TWM558517U TW M558517 U TWM558517 U TW M558517U TW 106218615 U TW106218615 U TW 106218615U TW 106218615 U TW106218615 U TW 106218615U TW M558517 U TWM558517 U TW M558517U
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Taiwan
Prior art keywords
chamber
resistant
pressure
heat
bent portion
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TW106218615U
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Chinese (zh)
Inventor
Jian Zhang
xiao-xiang Zhou
han-min Liu
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Asia Vital Components Co Ltd
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Priority to TW106218615U priority Critical patent/TWM558517U/en
Publication of TWM558517U publication Critical patent/TWM558517U/en

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Abstract

一種散熱裝置抗壓結構,係包含:一本體;所述本體具有一腔室及一彎折部,所述腔室具有一頂側及一底側,所述腔室對應該彎折部處設置一抗壓件,該腔室底側設有一毛細結構,所述抗壓件兩側分別抵頂該腔室之頂側及該毛細結構表面,該腔室內填充有一工作流體,透過該抗壓件係可令具有彎曲R角之本體內部蒸氣腔室不因彎曲設置而產生變形縮小或損壞者。A heat-resistant device compression-resistant structure includes: a body; the body has a chamber and a bent portion, the chamber has a top side and a bottom side, and the chamber is disposed at a bent portion a pressure-resistant member, the bottom side of the chamber is provided with a capillary structure, the two sides of the pressure-resistant member respectively abut against the top side of the chamber and the surface of the capillary structure, and the chamber is filled with a working fluid, and the pressure-resistant member is penetrated It is possible to make the internal vapor chamber of the body having the curved R angle not deformed or damaged due to the bending arrangement.

Description

散熱裝置抗壓結構Heat sink compression structure

一種散熱裝置抗壓結構,尤指一種可確保具有彎曲結構的散熱裝置其彎曲之部位的蒸氣腔室呈彎曲但仍保有其完整蒸氣腔室的散熱裝置抗壓結構。A heat sink compression structure, in particular a heat sink compression structure that ensures that a vapor chamber of a heat sink having a curved structure is curved while still retaining its complete vapor chamber.

現行均溫板及平板式熱管係被常使用於各領域散熱使用之散熱元件,均溫板及平板式熱管主要原理係由透過於該內部建立一真空氣密腔室並於該腔室中設置毛細結構及工作液體,工作液體於真空之環境下其沸點則低於一般環境,故可於腔室中快速進行汽液循環,故達到快速大面積熱傳導或遠端熱傳導等效果。 但為了符合各領域各應用面使用,均溫板或平板式熱管已不再僅為傳統平板狀之態樣,已有業者將均溫板或平板式熱管透過彎折或折疊或捲曲等方式塑形,藉以符合所應用之處;而均溫板或平板式熱管受到塑形時則勢必將會令其內部之作為蒸氣通道使用之腔室受到擠壓變形,進而影響汽液循環之效率,亦有業者透過設置銅柱做為支撐體使用,但呈凸柱狀之支撐體並無法設置於具有R角或彎曲角度過大之處,使得腔室仍然無法受到支撐而產生坍塌或狹窄之現象,再者,彎曲部位的毛細結構也會因為彎曲而造成翹曲或脫落等情況,令均溫板或平板式熱管熱傳導效率大幅降低甚者失能,故如何改善前述習知之缺失則為該項領域之業者首重之目標。The current uniform temperature plate and flat heat pipe system are commonly used for heat dissipation components used in various fields of heat dissipation. The main principle of the temperature equalization plate and the flat plate heat pipe is to establish a vacuum airtight chamber through the interior and set in the chamber. Capillary structure and working fluid, the working fluid in the vacuum environment, its boiling point is lower than the general environment, so the vapor-liquid circulation can be quickly carried out in the chamber, so the effect of rapid large-area heat conduction or remote heat conduction is achieved. However, in order to meet the application of various fields in various fields, the uniform temperature plate or the flat plate heat pipe is no longer only a traditional flat shape. The existing ones have molded the uniform temperature plate or the flat heat pipe by bending or folding or curling. Shape, in order to meet the application; while the uniform temperature plate or flat heat pipe is shaped, it will inevitably cause the internal chamber to be used as a vapor channel to be crushed and deformed, thereby affecting the efficiency of the vapor-liquid circulation. Some manufacturers use a copper column as a support, but a support with a convex column shape cannot be placed at an angle with an R angle or an excessive bending angle, so that the chamber is still unable to be supported and collapse or narrow. However, the capillary structure of the curved portion may also cause warping or falling off due to bending, so that the heat transfer efficiency of the uniform temperature plate or the flat heat pipe is greatly reduced and the disability is lost. Therefore, how to improve the aforementioned lack of the prior art is in the field. The first goal of the industry.

爰此,為解決上述習知技術之缺點,本創作之主要目的,係提供一種防止均溫板或平板式熱管彎折處之內部腔室防止坍塌或內縮影響工作液體汽液循環的散熱裝置抗壓結構。 為達上述之目的,本創作係提供一種,係包含:一本體; 所述本體具有一腔室及一彎折部,所述腔室具有一頂側及一底側,所述腔室對應該彎折部處設置一抗壓件,該腔室之底側設有一毛細結構,所述抗壓件兩側分別抵頂該腔室之頂側及該毛細結構表面,該腔室內填充有一工作流體。 並透過該抗壓件完整順應服貼該彎折部之腔室表面及該毛細表面設置,穩固支撐該彎折部處之腔室及防止毛細結構翹曲,令腔室保持完整不產生內縮或坍塌等現象確保腔室內工作液體之汽液循環穩定作業者。Therefore, in order to solve the above-mentioned shortcomings of the prior art, the main purpose of the present invention is to provide a heat dissipating device for preventing the internal chamber of the uniform temperature plate or the flat heat pipe bending portion from collapsing or contracting to affect the vapor-liquid circulation of the working liquid. Compressive structure. For the purpose of the above, the present invention provides a body comprising: a body; the body has a chamber and a bent portion, the chamber has a top side and a bottom side, the chamber corresponding to A pressure-resistant member is disposed at the bent portion, and a capillary structure is disposed on a bottom side of the chamber, the two sides of the pressure-resistant member respectively abut against a top side of the chamber and a surface of the capillary structure, and the chamber is filled with a working fluid . And the pressure-resistant member is completely conformed to the surface of the chamber and the capillary surface of the bending portion, and the chamber at the bending portion is stably supported and the capillary structure is prevented from being warped, so that the chamber remains intact without contraction. Or collapse or other phenomena to ensure that the vapor-liquid circulation of the working fluid in the chamber is stable to the operator.

本創作之上述目的及其結構與功能上的特性,將依據所附圖式之較佳實施例予以說明。 請參閱第1、2圖,係為本創作散熱裝置抗壓結構第一實施例之立體分解及組合剖視圖,如圖所示,所述散熱裝置抗壓結構,係包含:一本體1; 本實施例之本體1係為一均溫板之結構本體1,所述本體1具有一腔室11及一彎折部12,所述腔室11具有一頂側11a及一底側11b,所述腔室11對應該彎折部12處設置一抗壓件13,該腔室11底側11b設有一毛細結構14,所述抗壓件13兩側分別抵頂該腔室11之頂側11a及該毛細結構14表面,該腔室11內填充有一工作流體2。 所述本體1外部上、下兩側分別定義一吸熱側11c及一冷凝側11d,即所述抗壓件13兩側貼附於該腔室11對應該彎折部12之頂側11a表面處以及設置於該彎折部12處之毛細結構14的表面,該抗壓件13之兩端沿該腔室11表面向該彎折部12兩端延伸設置,所述抗壓件13係為(網格體或纖維體或燒結粉末或實心凸肋條其中任一)該抗壓件13係為金屬(銅、鋁、不銹鋼、鈦)或非金屬(橡膠或塑料或具可撓性之物質等),所述毛細結構14係為網格體或燒結粉末或溝槽或纖維體其中任一。 所述本體1具有一第一板體1a及一第二板體1b及一管體1c,所述第一、二板體1a、1b對應蓋合並同時夾持該管體1c且共同界定該腔室11,所述管體1c與該腔室11相連通,所述第一、二板體1a、1b係為金屬材質或陶瓷材質其中任一,所述金屬材質為金、銀、銅、鋁、不銹鋼、鈦材質其中任一。 所述本體1之彎折部12的兩端具有一第一延伸部1d及一第二延伸部1e,所述彎折部12兩端分別連結該第一、二延伸部1d、1e,並令所述第一、二延伸部1d、1e間具有一夾角1f,所述彎折部12係呈一彎曲倒圓角,所述抗壓件13具有一第一端133及一第二端134,並該第一、二端133、134沿該腔室11及該毛細結構14縱向向該彎折部12所連接之第一、二延伸部1d、1e延伸設置。 請參閱第3、4圖,係為本創作散熱裝置抗壓結構之第二實施例之立體分解及組合剖視圖,如圖所示,本實施例部分結構與前述第一實施例相同,故在此將不再贅述,惟本實施例與前述第一實施例差異在於所述本體1係為一平板式熱管之主體,並所述抗壓件13設置於彎折部12,藉此令平板式熱管彎折部12處之腔室11之蒸汽通道保持暢通不縮管或坍塌且進一步提升整體結構強度。 請參閱第5圖,係為本創作散熱裝置抗壓結構之抗壓件立體圖,如圖所示,本實施例部分結構與前述第一實施例相同,故在此將不再贅述,為本實施例與前述第一實施例之不同處在於所述該抗壓件13具有一第三端135及一第四端136設於該彎折部12,並沿該本體1之橫向延伸設置,並該抗壓件13具有至少一孔洞137,該等孔洞137連通該腔室11。 請參閱第6圖,係為本創作散熱裝置抗壓結構之抗壓件立體圖,如圖所示,本實施例部分結構與前述第一實施例相同,故在此將不再贅述,為本實施例與前述第一實施例之不同處在於該抗壓件13具有一第一側131及一第二側132,所述第一側131之寬度大於第二側132,並該第一側131對應抵接所述毛細結構14,第二側132對應抵接該腔室11之表面。 本創作主要透過於均溫板或平板式熱管需設置彎折處預先設置完整貼合該彎折處之上、下板體進而支撐腔室,進而達到提升結構強度防止彎折處之腔室坍塌或造成縮管而令做為蒸氣通道使用之腔室失去效用者。The above object of the present invention, as well as its structural and functional features, will be described in accordance with the preferred embodiments of the drawings. Please refer to FIGS. 1 and 2 for a perspective exploded view and a combined cross-sectional view of the first embodiment of the heat-suppressing structure of the heat sink. As shown in the figure, the heat-suppressing structure of the heat-dissipating device comprises: a body 1; The body 1 of the example is a structural body 1 of a temperature equalizing plate, the body 1 has a chamber 11 and a bent portion 12, the chamber 11 has a top side 11a and a bottom side 11b, the cavity The chamber 11 is provided with a pressure-resistant member 13 corresponding to the bent portion 12, and the bottom side 11b of the chamber 11 is provided with a capillary structure 14, and the two sides of the pressure-resistant member 13 respectively abut the top side 11a of the chamber 11 and the The surface of the capillary structure 14 is filled with a working fluid 2. The upper and lower sides of the body 1 define a heat absorbing side 11c and a condensing side 11d, respectively, that is, the two sides of the pressure resistant member 13 are attached to the surface of the top side 11a of the chamber 11 corresponding to the bent portion 12. And the surface of the capillary structure 14 disposed at the bent portion 12, the two ends of the pressure-resistant member 13 extending along the surface of the chamber 11 toward the two ends of the bent portion 12, the pressure-resistant member 13 is ( Any one of a mesh body or a fibrous body or a sintered powder or a solid rib; the pressure-resistant member 13 is made of metal (copper, aluminum, stainless steel, titanium) or non-metal (rubber or plastic or flexible material, etc.) The capillary structure 14 is any one of a mesh body or a sintered powder or a groove or a fiber body. The body 1 has a first plate body 1a and a second plate body 1b and a tube body 1c. The first and second plate bodies 1a, 1b are combined with the cover to simultaneously clamp the tube body 1c and jointly define the cavity. The chamber 11 is connected to the chamber 11 , and the first and second plates 1 a and 1 b are made of a metal material or a ceramic material, and the metal material is gold, silver, copper or aluminum. , stainless steel, titanium material. The two ends of the bent portion 12 of the body 1 have a first extending portion 1d and a second extending portion 1e. The two ends of the bent portion 12 respectively connect the first and second extending portions 1d and 1e, and The first and second extending portions 1d and 1e have an angle 1f. The bending portion 12 has a curved rounded corner. The pressure-resistant member 13 has a first end 133 and a second end 134. The first and second ends 133 and 134 extend along the longitudinal direction of the chamber 11 and the capillary structure 14 to the first and second extensions 1d and 1e to which the bent portion 12 is connected. Please refer to FIG. 3 and FIG. 4 , which are a perspective exploded view and a combined sectional view of a second embodiment of the pressure-resistant structure of the heat sink device. As shown in the figure, the partial structure of the embodiment is the same as that of the first embodiment described above. The difference between the present embodiment and the first embodiment is that the body 1 is a main body of a flat heat pipe, and the pressure-resistant member 13 is disposed on the bent portion 12, thereby making the flat heat pipe The steam passage of the chamber 11 at the bent portion 12 remains unobstructed or collapsed and further enhances the overall structural strength. Please refer to FIG. 5 , which is a perspective view of the pressure-resistant member of the pressure-resistant structure of the heat-dissipating device. As shown in the figure, the structure of the embodiment is the same as that of the first embodiment, and therefore will not be described again. The difference between the example and the first embodiment is that the pressure-resistant member 13 has a third end 135 and a fourth end 136 disposed on the bent portion 12 and extending along the lateral direction of the body 1 and The pressure-resistant member 13 has at least one hole 137 that communicates with the chamber 11. Please refer to FIG. 6 , which is a perspective view of the pressure-resistant member of the pressure-resistant structure of the heat-dissipating device. As shown in the figure, the structure of the embodiment is the same as that of the first embodiment, and therefore will not be described again. The difference between the example and the first embodiment is that the pressure-resistant member 13 has a first side 131 and a second side 132. The width of the first side 131 is greater than the second side 132, and the first side 131 corresponds to Abutting the capillary structure 14, the second side 132 abuts against the surface of the chamber 11. This creation is mainly through the need to set the bending point of the uniform temperature plate or the flat heat pipe to pre-set the entire upper and lower plate body to support the cavity, thereby improving the structural strength and preventing the collapse of the chamber. Or cause the tube to shrink and make the chamber used as a vapor channel useless.

1‧‧‧本體
11‧‧‧腔室
11a‧‧‧頂側
11b‧‧‧底側
11c‧‧‧吸熱側
11d‧‧‧冷凝側
12‧‧‧彎折部
13‧‧‧抗壓件
131‧‧‧第一側
132‧‧‧第二側
133‧‧‧第一端
134‧‧‧第二端
135‧‧‧第三端
136‧‧‧第四端
137‧‧‧孔洞
14‧‧‧毛細結構
2‧‧‧工作流體
1a‧‧‧第一板體
1b‧‧‧第二板體
1c‧‧‧管體
1d‧‧‧第一延伸部
1e‧‧‧第二延伸部
1f‧‧‧夾角
1‧‧‧ Ontology
11‧‧‧ chamber
11a‧‧‧ top side
11b‧‧‧ bottom side
11c‧‧‧heat side
11d‧‧‧condensing side
12‧‧‧Bend
13‧‧‧Resistance parts
131‧‧‧ first side
132‧‧‧ second side
133‧‧‧ first end
134‧‧‧ second end
135‧‧‧ third end
136‧‧‧ fourth end
137‧‧‧ holes
14‧‧‧Capillary structure
2‧‧‧Working fluid
1a‧‧‧ first board
1b‧‧‧Second plate
1c‧‧‧pipe body
1d‧‧‧First Extension
1e‧‧‧Second extension
1f‧‧‧ angle

第1圖係為本創作散熱裝置抗壓結構第一實施例之立體分解圖; 第2圖係為本創作散熱裝置抗壓結構第一實施例之組合剖視圖; 第3圖係為本創作散熱裝置抗壓結構第二實施例之立體分解圖; 第4圖係為本創作散熱裝置抗壓結構第二實施例之組合剖視圖; 第5圖係為本創作散熱裝置抗壓結構第三實施例之組合局部剖視圖; 第6圖係為本創作散熱裝置抗壓結構第四實施例之組合局部剖視圖。1 is a perspective exploded view of the first embodiment of the pressure-resistant structure of the heat sink device; FIG. 2 is a combined sectional view of the first embodiment of the pressure-resistant structure of the heat sink device; 3 is an exploded perspective view of the second embodiment of the pressure-resistant structure; FIG. 4 is a combined sectional view of the second embodiment of the pressure-resistant structure of the heat-dissipating device; FIG. 5 is a combination of the third embodiment of the pressure-resistant structure of the heat-dissipating device A partial cross-sectional view; Fig. 6 is a partial cross-sectional view showing a combination of a fourth embodiment of the pressure-resistant structure of the heat sink.

Claims (12)

一種散熱裝置抗壓結構,係包含: 一本體,具有一腔室及一彎折部,所述腔室具有一頂側及一底側,所述腔室對應該彎折部處設置一抗壓件,該腔室之底側設有一毛細結構,所述抗壓件兩側分別抵頂該腔室之頂側及該毛細結構表面,該腔室內填充有一工作流體。A heat-resistant device compression-resistant structure comprises: a body having a chamber and a bent portion, the chamber having a top side and a bottom side, wherein the chamber is provided with a compression resistance corresponding to the bent portion The bottom side of the chamber is provided with a capillary structure, and the two sides of the pressure-resistant member respectively abut against the top side of the chamber and the surface of the capillary structure, and the chamber is filled with a working fluid. 如申請專利範圍第1項所述之散熱裝置抗壓結構,其中所述本體具有一第一板體及一第二板體及一管體,所述第一、二板體對應蓋合,並同時夾持該管體且共同界定該腔室,所述管體與該腔室相連通。The heat-resistant device pressure-resistant structure according to claim 1, wherein the body has a first plate body, a second plate body and a pipe body, and the first and second plate bodies are correspondingly closed, and The tube is simultaneously clamped and collectively defines the chamber, the tube being in communication with the chamber. 如申請專利範圍第2項所述之散熱裝置抗壓結構,其中所述第一、二板體係為金屬材質或陶瓷材質其中任一,所述金屬材質為金、銀、銅、鋁、不銹鋼、鈦材質其中任一。The heat-resistant device pressure-resistant structure according to claim 2, wherein the first and second plate systems are any one of a metal material or a ceramic material, and the metal material is gold, silver, copper, aluminum, stainless steel, Any of titanium materials. 如申請專利範圍第1項所述之散熱裝置抗壓結構,其中所述彎折部兩端分別延伸連接一第一延伸部及一第二延伸部,所述第一、二延伸部間具有一夾角。The pressure-reducing structure of the heat-dissipating device of claim 1, wherein the two ends of the bent portion are respectively connected to a first extending portion and a second extending portion, and the first and second extending portions have a Angle. 如申請專利範圍第1項所述之散熱裝置抗壓結構,其中所述彎折部係呈一彎曲倒圓角。The heat-resistant device compression-resistant structure according to claim 1, wherein the bent portion has a curved rounded corner. 如申請專利範圍第1項所述之散熱裝置抗壓結構,其中所述毛細結構係為網格體或燒結粉末或溝槽或纖維體其中任一。The heat sink compression structure according to claim 1, wherein the capillary structure is any one of a mesh body or a sintered powder or a groove or a fiber body. 如申請專利範圍第1項所述之散熱裝置抗壓結構,其中所述抗壓件係為金屬(銅、鋁、不銹鋼、鈦其中任一)或非金屬(橡膠或塑料或具可撓性之物質等)。The heat-resistant device pressure-resistant structure according to claim 1, wherein the pressure-resistant member is metal (either copper, aluminum, stainless steel, titanium) or non-metal (rubber or plastic or flexible) Substance, etc.). 如申請專利範圍第1項所述之散熱裝置抗壓結構,其中所述本體係為一均溫板之主體或一平板式熱管之主體。The heat-resistant device compression-resistant structure according to claim 1, wherein the system is a main body of a uniform temperature plate or a main body of a flat-plate heat pipe. 如申請專利範圍第4項所述之散熱裝置抗壓結構,其中該抗壓件具有一第一端及一第二端,並該第一、二端沿該腔室及該毛細結構之表面向該彎折部所連接之第一、二延伸部延伸設置。The heat-resistant device compression-resistant structure according to claim 4, wherein the pressure-resistant member has a first end and a second end, and the first and second ends are along the surface of the chamber and the capillary structure The first and second extensions to which the bent portion is connected extend. 如申請專利範圍第1項所述之散熱裝置抗壓結構,其中該抗壓件具有一第三端及一第四端設於該彎曲部,並朝該本體之橫向延伸設置,並該抗壓件具有至少一孔洞,該等孔洞連通該腔室。The pressure-reducing structure of the heat-dissipating device of claim 1, wherein the pressure-resistant member has a third end and a fourth end disposed on the curved portion, and extends toward the lateral direction of the body, and the pressure is resisted. The piece has at least one hole that communicates with the chamber. 如申請專利範圍第1項所述之散熱裝置抗壓結構,其中該抗壓件具有一第一側及一第二側,所述第一側之寬度大於第二側,並該第一側對應抵接所述毛細結構,第二側對應抵接該腔室之表面。The heat-resistant device pressure-resistant structure according to claim 1, wherein the pressure-resistant member has a first side and a second side, the first side has a width greater than the second side, and the first side corresponds to Abutting the capillary structure, the second side correspondingly abuts the surface of the chamber. 如申請專利範圍第1項所述之散熱裝置抗壓結構,其中所述本體外部上、下兩側分別定義一吸熱側及一冷凝側,該吸熱側相對該本體內部該腔室之底側,該冷凝側相對該本體內部腔室之頂側。The anti-pressure structure of the heat sink according to claim 1, wherein the upper and lower sides of the body respectively define a heat absorption side and a condensation side, and the heat absorption side is opposite to the bottom side of the chamber inside the body. The condensing side is opposite the top side of the internal chamber of the body.
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