M328032 八、新型說明: • 【新型所屬之技術領域】 _ 本創作係關於一種滑鼠導熱管式散熱裝置,特別是指一種 •滑鼠本體開設有一開孔,而熱管之蒸發段經由開孔與人體接觸, 其金屬管體内部之工作介質,經由人體接觸就會蒸發,而該金屬 _苔肢藉助於工作介質的蒸發、輸運以及凝結等過程將人體手部熱 ,置從官體的蒸發段傳遞到冷凝段的調溫裝置。 • 【先前技術】 拜科技之賜,現代人無論是在工作上或是生活中都與電腦脫 離不了關係,一般常見電腦的輸入方式是鍵盤和滑鼠,其中又是 以滑鼠與人體手部的接觸時間最長,因長時間的使用接觸下,使 仔使用者在操作滑鼠時,手部容易產生出汗的現象,造成操作作 業上的不適感。 「熱管」是目前電子散熱產品中廣為應用的傳熱元件之一, Φ -匕充刀利用熱傳導原理與致冷介質快速熱傳遞性質,透過熱管將 -發熱物體的熱量迅速傳遞到體外,導熱能力超過了任河已知金屬 的v熱旎力,其導熱細數可達良好金屬傳遞係數的1〇〜丨〇4倍。 熱官官殼是金屬製成的封閉殼體,按需要常製成直管、彎 管、板形等形狀。熱管管芯是由金屬製成的多孔毛細結構構件並 I、附在熱官管殼的内壁上,管芯浸透著工作介質。工作介質因工 作溫度的不同可用水、汞、氟里昂、鈉、鉀、銀等各種物質。在 熱官同熱源接觸的一端(蒸發端)内,工作介質因吸收熱能而迅 5 M328032 速蒸發,蒸氣流向熱官溫度較低的另一端(冷凝端)並在凝結過 程中放出熱量,凝結的液體落在管芯上,由於管芯的毛細作用使 其流回蒸發端,依靠工作介質的這種連續循環,熱管不斷將熱量 從熱源傳遞出去。 有鑑於此,本案創作人鑑於習用熱管具有均衡溫度分布的優 -點,乃亟思加以改良創新,並經潛心研究後,終於成功研發完成 _ 本件滑鼠導熱管式散熱裝置。 Φ 【新型内容】 本創作之目的即在於提供一種滑鼠導熱管式散熱裝置,其内 部設置有高熱導率比與高傳熱溫差效果的熱管,可提供人體手部 接觸後快速的調降溫度。 本創作之次一目的係在於提供一種滑鼠其内部之熱管具有 極低的壓力,當管體内的工作介質在約攝氏3〇〜35度就能即時蒸 發,利用工作介質其汽化溫度接近人體溫度的優點,將熱管應用 _ -於滑鼠的調溫裝置。 '本創作之另一目的係在於提供一種滑鼠導熱管式散熱裝 置’其内部設置有熱量通量大的熱f,當人體手部接觸後,可有 效排散人體更多熱量的調溫裝置。 可達成上述新型目的之滑鼠導熱管式散熱襄置,包括有: 一滑鼠本體,係於滑鼠本體握持部位設有一開孔; 一金屬管體’其内具有-密封空間’該金屬管體二端分別構 成蒸發段與冷凝段’且該蒸發段能從滑鼠本體之開孔延伸出後能 M328032 嵌入滑鼠本體之開孔; 層毛細結構,為多孔毛細結構,構成於金屬管體内周面 上;以及 么封於管體内之工作介質,係充滿於多孔毛細結構之液態工 作介質; 其中該工作介質的汽化溫度將設計成人體和環境的中間溫 度’因此當金屬管體之蒸發段經由滑鼠本體之開孔與人體接觸 日守’金屬官體其蒸發段吸收人體手部熱量的溫度會大於工作介質 之汽化溫度,進而調整人體手部之溫度。 【實施方式】 凊麥閱圖—至圖六,本創作所提供之滑鼠導熱管式散熱裝 置’主要包括有:一滑鼠本體(1)、一金屬管體(2)、_層毛細結 構(21)以及密封於管體内之工作介質(3)所構成。 該滑鼠本體(1)係於握持部位開設有一開孔(11),如圖一所 示; 該金屬管體⑵,為金屬材質(如:銅、銘、不錄鋼)的圓 官或其他幾何形狀的容器,其内具有一密封空間,該金屬管體⑵ 二端分別構成蒸發段(22)與冷凝段⑽,且該蒸發段(22)能套設 於滑鼠本體⑴之開孔⑴),該金屬管體⑵之蒸發段(22)其能顯 孔ui) ’其製作時’蒸發段(22)之形狀能凸出開孔(⑴ 或與滑鼠本體⑴之外表面相同形狀,如圖二至圖五所示,該層 毛細結構(21),為多孔毛細結構,構成於金屬管體⑺内周面上, 7 M328032 該毛細結構(21)如:網狀(Mesh)、纖維业. • 、半狀(Fiber)、燒結 (sinter)、溝狀(Groove),此為本領域人員 、厅知,但並非用以限 制;以及 請參閱圖六,其密封於管體内之工作介 ^ F 7丨貝(3),該工作介質 (3)係充滿於多孔毛細結構(21)用以傳遞埶 θ …、至 疋在熱力學中指 實現熱能與機械能或其他能量的轉換或傳遞過程中所用的工作 介質⑺。本創作之工作介質⑺除了是流體外,也可以是氣體(見M328032 VIII. New description: • [New technical field] _ This is a kind of mouse heat pipe type heat sink, especially one type of mouse body has an opening, and the evaporation section of the heat pipe is opened through the hole When the human body is in contact, the working medium inside the metal pipe body will evaporate through the contact of the human body, and the metal _ moss body heats the human hand by means of evaporation, transportation and condensation of the working medium, and is evaporated from the body. The section is passed to the temperature regulating device of the condensation section. • [Prior Art] Thanks to the technology, modern people can't be separated from computers in their work or life. The common computer input methods are keyboard and mouse, which are mouse and human hand. The contact time is the longest, and the user is prone to sweating when operating the mouse due to prolonged use of the contact, resulting in discomfort in the operation. "Heat pipe" is one of the widely used heat transfer components in electronic heat dissipation products. The Φ-匕 filling knife utilizes the principle of heat conduction and the rapid heat transfer property of the refrigerant medium, and the heat of the heat-generating object is quickly transmitted to the outside through the heat pipe. The ability exceeds the v-heating force of Renhe's known metal, and its thermal conductivity can reach a good metal transfer coefficient of 1〇~丨〇4 times. The thermal official shell is a closed casing made of metal, which is often formed into a straight pipe, a curved pipe, a plate shape or the like as needed. The heat pipe die is a porous capillary structural member made of metal and I is attached to the inner wall of the heat official casing, and the die is saturated with the working medium. Working medium can use various substances such as water, mercury, freon, sodium, potassium and silver depending on the working temperature. In the end (evaporation end) where the heat officer is in contact with the heat source, the working medium evaporates quickly due to the absorption of heat energy, and the vapor flows to the other end of the lower temperature (condensation end) and releases heat during the condensation process, which is condensed. The liquid falls on the die, and due to the capillary action of the die, it flows back to the evaporation end. Depending on this continuous circulation of the working medium, the heat pipe continuously transfers heat away from the heat source. In view of this, the creator of this case, in view of the superior temperature point of the uniform heat distribution of the conventional heat pipe, was improved and innovated by the enthusiasm, and after careful research, it finally succeeded in research and development _ this piece of the mouse heat pipe cooling device. Φ [New content] The purpose of this creation is to provide a heat-sink heat-dissipating device for the mouse, which is provided with a heat pipe with high thermal conductivity ratio and high heat transfer temperature difference effect, which can provide a rapid temperature drop after human hand contact. . The second purpose of this creation is to provide a kind of heat pipe with a very low pressure inside the mouse. When the working medium in the tube body is evaporated at about 3 to 35 degrees Celsius, the vaporization temperature of the working medium is close to the human body. The advantage of temperature, the application of heat pipes _ - the temperature control device for the mouse. 'Another purpose of this creation is to provide a kind of thermal conduction tube type heat dissipating device for a mouse, which is provided with a heat f with a large heat flux inside, and a temperature regulating device capable of effectively dissipating more heat of the human body when the human hand is in contact. . The utility model can realize the above-mentioned novel purpose of the heat-conducting tubular heat-dissipating device of the mouse, comprising: a mouse body, which is provided with an opening in the grip portion of the mouse body; and a metal pipe body having a sealed space therein. The two ends of the pipe body respectively constitute an evaporation section and a condensation section, and the evaporation section can be extended from the opening of the body of the mouse, and the M328032 can be embedded in the opening of the body of the mouse; the capillary structure is a porous capillary structure and is formed on the metal pipe. The inner working surface of the body; and the working medium sealed in the tube body is filled with a liquid working medium of a porous capillary structure; wherein the vaporization temperature of the working medium will design an intermediate temperature between the adult body and the environment 'so the metal pipe body The evaporation section is in contact with the human body through the opening of the body of the mouse. The temperature of the metal body's evaporation section absorbs the heat of the human hand is greater than the vaporization temperature of the working medium, thereby adjusting the temperature of the human hand. [Embodiment] The buckwheat reading--to the sixth figure, the mouse heat-conducting tube heat-dissipating device provided by the present invention mainly includes: a mouse body (1), a metal pipe body (2), and a layer capillary structure. (21) and a working medium (3) sealed in the tube body. The mouse body (1) is provided with an opening (11) in the grip portion, as shown in FIG. 1; the metal tube body (2) is a metal material (such as copper, Ming, and non-recorded steel) or The other geometric shape container has a sealed space therein, and the two ends of the metal pipe body (2) respectively constitute an evaporation section (22) and a condensation section (10), and the evaporation section (22) can be sleeved on the opening of the mouse body (1) (1)), the evaporation section (22) of the metal pipe body (2) can show the hole ui) 'when it is made', the shape of the evaporation section (22) can protrude from the opening ((1) or the same shape as the outer surface of the mouse body (1) As shown in FIG. 2 to FIG. 5, the capillary structure (21) is a porous capillary structure and is formed on the inner circumferential surface of the metal pipe body (7), 7 M328032. The capillary structure (21) is, for example, a mesh (Mesh), Fiber industry. • Fiber, sinter, Groove, which is known to those skilled in the art, but not intended to be limited; and please refer to Figure 6, which is sealed in the tube. Working with F 7 mussels (3), the working medium (3) is filled with a porous capillary structure (21) for transmitting 埶θ ..., to 疋Thermodynamic middle achieve thermal and mechanical energy or other energy conversion or transfer ⑺ working medium used in the process. ⑺ working medium is present in addition to the creation of a fluid, may be a gas (see
理想氣體、實際氣體、混合氣體)或水蒸汽 好的流動性和壓縮性,便於吸收、輸運、釋 ’因為氣態物質有良 放或轉換能量。該載 熱之工作介質⑶按卫作要求選用,可從深冷液化氣(如··水、 曱知丙酮)直到液悲金屬(如:鈉、汞、氟里昂、鈉、銀); M Jc羔几谷易獲知,其成本低廉,並具有無腐蝕性、比熱容和 汽化潛熱較大等優良性能,所以是最常用的工作介質(3)。Ideal gas, actual gas, mixed gas) or water vapor. Good fluidity and compressibility, easy to absorb, transport, release. Because gaseous substances have good or converted energy. The heat-carrying working medium (3) is selected according to the requirements of the maintenance, from cryogenic liquefied gas (such as water, knowing acetone) to liquid metal (such as sodium, mercury, freon, sodium, silver); M Jc Lamb is easy to know, its low cost, and has excellent properties such as non-corrosive, specific heat capacity and large latent heat of vaporization, so it is the most commonly used working medium (3).
本創作係利用玉作介質⑻的汽化溫度(沸點)取決於相應的 壓力的特性,而根據理論分析和實驗測定可得知。透過調整金屬 管體(2)管内壓力來控制工作介質(3)的汽化溫度,該工作介質(3) 勺/气化度將將其设計成人體和環境的中間溫度。因此當金屬管 (2)之洛發段經由滑鼠本體(丨)之開孔(丨丨)與人體接觸時,金屬 吕月丑/、洛發段(22)吸收人體手部熱量的溫度大於工作介質(3)的 π化μ度,因此工作介質(3 )吸熱並汽化;汽化的工作介質(3 ) 私動到冷破段(23),回到環境溫度,凝結成液態;該工作介質(3) 由方、重力作用’再沿著毛細結構(21)重新流回蒸發段(22)(接觸 M328032 端(下方))。在相平衡定律係插述非均勻復相系處於平衡時的性 質;-個復相系在完全平衡時的自由度等於其獨立組 減去相數P再加2。數學表達式為: (2) C - P + 2 數字2可認為是代表溫度和壓力兩個變量的數目。對於單天 單相系,例如水,自由度數為2,故溫度Γ和壓力户可在合= 範圍内獨立地改變。對於單元二相系,例如水和水蒸氣的混合 體,自由度數為卜表明溫度和壓力兩個變量中只有一個可以獨 立地改變’故此時平衡態可在(溫度Γ,壓力户)相圖用—條曲錄 來表示。狀單元三相系、,例如冰、纟、水蒸氣的混合體,自由 度數為0 ’表明溫度7和壓力户都有固定值而不能改變,此時斗 衡態在(溫度Γ,壓力/相圖上就用一個點(通常稱為三相點 表示。 熱力學理論可以證明’―定量的某種氣體,當容積保持不變 時’溫度7與壓力/>成正比。液體的飽和蒸氣壓等於液面上大氣 壓之溫度,此時液體各點均呈劇烈汽化現象,且液氣相可共存若 液面上為1大氣壓(1 atm(76 mmHg))時,則該沸點稱為「正常沸 點」,如工作介質(3)為水,則水的正常沸點為1〇〇。匚。 當本創作之工作介質(3)欲填入金屬管體(2)内部時,須預設 工作介質⑻之汽化溫度(如航),因金屬管體⑵吸收人體熱 量的溫度(約37°C)會大於工作介質(3)之汽化溫度卜如圖七所示 為水的三相圖,0為三相點,0K為汽化曲線,〇L為融化曲線, 9 M328032 在單組^統的相平衡中,沒有組成變量,只須考慮溫度和壓力 Y 里口此,所有可能的相平衡關係均可用壓力-溫度圖表 士果乂工作介質(3)其汽化溫度和壓力的平衡關係落在汽化 曲線上’則曲線的斜率_7均可用克㈣龍方程表示:The evaporation temperature (boiling point) of the jade medium (8) in this creation depends on the characteristics of the corresponding pressure, and can be known from theoretical analysis and experimental measurements. The vaporization temperature of the working medium (3) is controlled by adjusting the pressure inside the metal tube (2). The working medium (3) scoop/gasification will design the intermediate temperature between the adult body and the environment. Therefore, when the Luofa section of the metal tube (2) is in contact with the human body through the opening (丨丨) of the mouse body (丨), the temperature of the metal Lu Yue ugly/, Luo Fa section (22) absorbing the human hand heat is greater than the working medium. (3) π μ degree, so the working medium (3) absorbs heat and vaporizes; the vaporized working medium (3) moves to the cold break section (23), returns to the ambient temperature, and condenses into a liquid state; the working medium (3) ) By gravity, 're-flow along the capillary structure (21) back to the evaporation section (22) (contact M328032 end (below)). In the phase equilibrium law, the nature of the non-uniform complex system is balanced; the degree of freedom of a complex phase in complete equilibrium is equal to its independent group minus the number of phases P plus 2. The mathematical expressions are: (2) C - P + 2 The number 2 can be thought of as the number of two variables representing temperature and pressure. For a single-day single-phase system, such as water, the number of degrees of freedom is 2, so the temperature Γ and pressure households can be independently changed within the range of =. For a unit two-phase system, such as a mixture of water and water vapor, the number of degrees of freedom is that only one of the two variables of temperature and pressure can be changed independently. Therefore, the equilibrium state can be used in the (temperature, pressure) phase diagram. - a track record to indicate. The three-phase system of the unit, for example, a mixture of ice, helium and water vapor, the degree of freedom is 0', indicating that the temperature 7 and the pressure household have fixed values and cannot be changed. At this time, the balance state is (temperature Γ, pressure/phase A point is used on the graph (commonly referred to as a three-point point representation. Thermodynamic theory can prove '-a certain amount of gas, when the volume remains the same, 'temperature 7 is proportional to pressure/>. The saturated vapor pressure of the liquid is equal to At the atmospheric pressure on the liquid surface, the liquid is vaporized at various points, and the liquid gas phase can coexist. If the liquid surface is 1 atmosphere (1 atm (76 mmHg)), the boiling point is called "normal boiling point". If the working medium (3) is water, the normal boiling point of the water is 1〇〇.匚 When the working medium (3) of this creation is to be filled into the inside of the metal pipe body (2), the working medium (8) must be preset. The vaporization temperature (such as aeronautical), the temperature at which the metal pipe body (2) absorbs human body heat (about 37 ° C) will be greater than the vaporization temperature of the working medium (3). As shown in Figure 7, the three-phase diagram of water, 0 is three-phase Point, 0K is the vaporization curve, 〇L is the melting curve, 9 M328032 is in the single group In the balance, there is no compositional variable, only the temperature and pressure Y are considered. All possible phase equilibrium relationships can be obtained by using the pressure-temperature graph, the working medium (3), and the equilibrium relationship between the vaporization temperature and pressure falls on the vaporization curve. The slope of the upper curve is _7 and can be expressed by the gram (four) dragon equation:
U (21) /式(21)說明單組分系統兩相平衡時溫度τ與壓力"關 為疋S的該物質從一個相轉變為與之平衡共存的 另一個相時的熱效應和體積變化。 本創作其工作介質⑺填入金屬管體⑵之操作壓力會落在 ^化曲線ok’當工作介質⑻為水時,水在⑽。c和—個標準大 氣壓情況下,水的汽化熱為⑽卡/克,如水要在饥汽化,則 可對應汽化曲線0K計算出填充金屬管體⑺之操作壓力值。 本創作之金屬管體⑵為使用真Ml的金屬管將熱自蒸發 段(22)傳導至冷凝段⑵),在金屬管體⑺内有工作介質⑻,其 中約有90%的水分’水則是為增加熱傳的添加物。 本創作之熱管(金屬管體⑵)沿縱向分成蒸發段(22)和冷 凝段(23) ’根據需要也可在令間加一絕熱段。熱管的橫斷面由金 屬官體(2)、毛細結構(21)及蒸氣通道(24)組成。其製作時,抽 盡管内空氣並注入一定量的工作介質⑶,再將金屬管體⑺密 封。毛細結構⑵)為多孔毛細結構,多孔毛細結構⑼内充滿液 態工作介質(3);蒸氣通道(24)内容納卫作介f⑶的飽和蒸氣。 M328032 本創作係於滑鼠本體(丨)開設有一開孔(丨丨),並將金屬管體 (2) 之蒸發段(22)顯現於開孔(11),使人體手部握持於滑鼠本體 (1)之握持部時,其人體手部會與蒸發段(22)接觸,再經由金屬 ;管體(2)將人體手部熱量自蒸發段(22)傳入,因管内的壓力極 •低,所以工作介質(3)在約攝氏30〜35度時即可蒸發,當蒸發段 _ (22)管芯内的工作介質(3)吸熱蒸發變成蒸氣而流向冷凝段 • (23),並在冷凝段(23)管芯表面凝結,釋放出氣化潛熱,並於冷 •凝段(23)傳出管外。在冷凝段(23)凝結下來的液體工作介質 (3) ,因管芯内的毛細壓差重新流回蒸發段(22)。如此繼續循環, 不斷將熱量自熱管的一端傳到另一端,熱管利用蒸發—凝結之過 程傳遞熱量,兩端溫差很小,在金屬管體⑵兩端(蒸發段⑵) 與冷凝段(23))的平均溫度差可以達到攝氏8度,所以熱管具有 非书南的有效熱導,$的傳熱能力相當於同等冑面銅棒的數百 倍。 • 本創作所提供之滑鼠導熱管式散熱裝置,與其他習用技術相 、互比較時,更具有下列之優點: 1 ·熱官的特點是當量熱導率高和等溫性好。 2·工作介質⑶的氣化潛熱通常很大,所以有很高的熱導 率。 3·工作介質(3)的汽化溫度取決於相應的壓力。 4H内壓力沿軸線的變化不大,管内各點的溫度也相差 不多’因而熱管具有良好的等溫性。 M328032 综上所述,本案不但在空間型態上確屬創新,並能較習用 物品增進上诚炙, k夕項功效,應已充分符合新穎性及進步性之法定 型專利尊彳,東' 意依法提出申請,懇請貴局核准本件新型專利申 .請案’以勵創作,至感德便。 【圖式簡單說明】 • 圖為本創作滑鼠導熱管式散熱裝置之立體示意圖; • 圖二為該滑鼠本體之側面視意圖; I 圖二為圖二之局部剖面放大視意圖,其顯示金屬管體與毛細 結構之結構; 圖四為本創作滑鼠本體之上視圖; ⑽Θ為硐叭本體與金屬官體的橫斷面示意圖,其顯示金屬管 月豆與毛細結構之結構; 圖六為滑鼠本體與金屬管俨的供辦Κ —立 ^ _ 王屬&體的秩断面不意圖,其顯示金屬管 月且與密封於管體内之工作介質其狀態,·以及 I - 圓七為水的三相圖。 、【主要元件符號說明】 1滑鼠本體 11開孔 2金屬管體 21 毛細結構 22蒸發段 23冷凝段 12 M328032 蒸氣通道 24 3工作介質 0 三相點 0K 汽化曲線U (21) / (21) shows the thermal effect and volume change of a single-component system in which the temperature τ and the pressure of the two-phase equilibrium are changed from one phase to another in which the phase coexists. . The working pressure of the working medium (7) filled in the metal pipe body (2) will fall on the chemical curve ok' when the working medium (8) is water, and the water is at (10). c and - under standard atmospheric pressure, the heat of vaporization of water is (10) calories per gram. If the water is to be hunted, the operating pressure value of the filled metal pipe (7) can be calculated corresponding to the vaporization curve 0K. The metal pipe body (2) of the present invention is a metal pipe using true Ml to conduct heat from the evaporation section (22) to the condensation section (2), and a working medium (8) is contained in the metal pipe body (7), wherein about 90% of the water 'water is It is an additive for increasing heat transfer. The heat pipe (metal pipe body (2)) of the present invention is divided into an evaporation section (22) and a condensing section (23) in the longitudinal direction. An adiabatic section may be added between the orders as needed. The cross section of the heat pipe is composed of a metal body (2), a capillary structure (21) and a vapor passage (24). In the production, the internal air is injected and a certain amount of working medium (3) is injected, and the metal pipe body (7) is sealed. The capillary structure (2) is a porous capillary structure, the porous capillary structure (9) is filled with a liquid working medium (3), and the vapor channel (24) contains a saturated vapor of f(3). M328032 This creation system has an opening (丨丨) in the mouse body (丨), and the evaporation section (22) of the metal tube body (2) is displayed in the opening (11), so that the human hand is held in the sliding When the mouse body (1) is gripped, the human hand will contact the evaporation section (22) and then pass through the metal; the tube body (2) will transfer the human hand heat from the evaporation section (22) due to the inside of the tube. The pressure is extremely low, so the working medium (3) can evaporate at about 30 to 35 degrees Celsius. When the evaporation medium _ (22) the working medium in the die (3) absorbs heat and evaporates into steam and flows to the condensation section. ), and condense on the surface of the condensing section (23), releasing the latent heat of vaporization and passing it out of the tube in the cold/condensing section (23). The liquid working medium (3) condensed in the condensing section (23) is returned to the evaporation section (22) due to the capillary pressure difference in the wick. In this way, the cycle is continued, and the heat is continuously transferred from one end of the heat pipe to the other end, and the heat pipe transfers heat by the evaporation-condensation process, and the temperature difference between the two ends is small, at both ends of the metal pipe body (2) (evaporation section (2)) and the condensation section (23) The average temperature difference can reach 8 degrees Celsius, so the heat pipe has an effective heat conduction of non-Book South, and the heat transfer capacity of $ is equivalent to hundreds of times that of the same face copper rod. • The mouse thermal tube cooling device provided by this creation has the following advantages when compared with other conventional technologies: 1 · The thermal officer is characterized by high equivalent thermal conductivity and good isothermality. 2. The latent heat of vaporization of the working medium (3) is usually large, so it has a high thermal conductivity. 3. The vaporization temperature of the working medium (3) depends on the corresponding pressure. The pressure in 4H does not change much along the axis, and the temperature at each point in the tube is not much different. Therefore, the heat pipe has good isothermality. M328032 In summary, this case is not only innovative in terms of space type, but also can be more sincere in the use of customary items, k-term effect, should be fully in line with the novelty and progressiveness of the statutory patents, East I intend to apply in accordance with the law, and I ask you to approve this new type of patent application. The case of 'inspired creation', to the sense of virtue. [Simple diagram of the diagram] • The diagram is a three-dimensional schematic diagram of the heat-sinking heat sink of the mouse; Figure 2 is the side view of the mouse body; I Figure 2 is a partial cross-sectional view of Figure 2, showing The structure of the metal pipe body and the capillary structure; Figure 4 is a top view of the body of the mouse; (10) is a schematic cross-sectional view of the body of the horn and the metal body, which shows the structure of the metal pipe and the capillary structure; For the body of the mouse and the metal pipe 供 Κ 立 立 立 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 Seven is a three-phase diagram of water. [Description of main components] 1 mouse body 11 opening 2 metal pipe 21 capillary structure 22 evaporation section 23 condensation section 12 M328032 vapor channel 24 3 working medium 0 triple point 0K vaporization curve
0L 融化曲線0L melting curve