CN102686082A - Heat radiation device and manufacturing method thereof - Google Patents

Heat radiation device and manufacturing method thereof Download PDF

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Publication number
CN102686082A
CN102686082A CN2011100573067A CN201110057306A CN102686082A CN 102686082 A CN102686082 A CN 102686082A CN 2011100573067 A CN2011100573067 A CN 2011100573067A CN 201110057306 A CN201110057306 A CN 201110057306A CN 102686082 A CN102686082 A CN 102686082A
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chamber
cavity
opening
heat
end
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CN2011100573067A
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Chinese (zh)
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吕智杰
吴文渊
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奇鋐科技股份有限公司
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Publication of CN102686082A publication Critical patent/CN102686082A/en

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Abstract

The invention provides a heat radiation device and a manufacturing method thereof. The heat radiation device comprises a first chamber body, a second chamber body and a plurality of connecting pieces, wherein a first chamber and a second chamber are respectively defined on the first chamber body and the second chamber body; and the two ends of the connecting pieces are respectively connected with the first chamber body and the second chamber body and communicated with the first chamber and the second chamber by passages; therefore, a working liquid in the first chamber can be vaporized after heated and communicated with the second chamber by a passage; and the vapor is transmitted to the first chamber by the passage so as to radiate heat after condensed in a liquid state in the second chamber.

Description

散热装置及其制造方法 The heat dissipation device and manufacturing method thereof

技术领域 FIELD

[0001] 本发明系有关于一种散热装置,尤指一种可提高热传导与散热效能且减少散热装置整体重量之散热装置及其制造方法。 [0001] The present invention relates to a heat sink, especially a heat conduction can be improved and heat dissipation performance and reduces the overall weight of the device and manufacturing method of the heat sink.

背景技术 Background technique

[0002] 产业不断发展,冷却或热量的移除始终为电子产业发展的一大障碍。 [0002] continuous development of industry, removing a major obstacle to cool or heat is always the electronics industry development. 随着高效能的要求、整合度的提高以及多功能的应用,对于散热的要求也面临极大挑战,故对于热量移转效率的研发就成为电子工业的主要课题。 With the high-performance requirements, as well as to improve the integration of multi-functional applications for the cooling requirements are also facing great challenges, it is for the heat transfer efficiency of research and development has become the main topic of the electronics industry.

[0003] 而散热鳍片通常被使用在将组件或系统的热量散逸在大气之中;而在热阻较低的情形下,则显示该散热片具有较高的散热效率。 [0003] and heat radiation fins are commonly used in the heat dissipation components or systems in the atmosphere; in the case of lower resistance, is displayed the fins having high heat dissipation efficiency. 一般来说,热阻系由散热片内部之扩散热阻以及该散热片表面与大气环境之间之对流热阻所构成;在应用上,高传导性之材料如铜、铝等常被用以制作散热片以降低扩散热阻;然而,对流热阻则限制了散热片的效能,使其无法达成新一代电子组件的散热要求。 Generally, thermal diffusion system constituted by the inner fin of the convection resistance and the thermal resistance between the heat sink surface and the atmosphere; in the application, the material having a high conductivity such as copper, aluminum and the like are often used to making fins to reduce diffusion resistance; however, limits the effectiveness of the convective thermal resistance of the heat sink, it can not reach the new generation of the electronic component cooling requirements.

[0004] 据此,目前市场均着眼于更有效率的散热机制,并陆续提出具有高导热效能的热管(Heat pipe),并将该热管(Heat pipe)与散热片作组合,以有效解决现阶段的散热问题。 [0004] Accordingly, the current market are focused on more efficient heat dissipation mechanism, and gradually raise the heat pipe (Heat pipe) having a high thermal efficiency, and the heat pipe (Heat pipe) of the heat sink for the composition to effectively address the current heat problem stage.

[0005] 在实际使用时,热管的其中一端是做为蒸发段而与一个装设于一个电子组件上的热管座连接,而热管的另一端则是做为冷凝段而可供多数的散热鳍片装设,请参阅图I所示,系为习知技术散热装置之立体图,所述该习知散热装置10系由一个具有复数散热鳍片组成之散热器11及至少一个热管12所组成,所述热管12 —端为一个冷凝端121及另一端为一个蒸发端122,所述冷凝端121系穿设所述散热器11,而蒸发端122系吸收电子组件所产生之热能,如此,当热管12的蒸发端122受热时,在蒸发端122内的热传导介质即会汽化并吸收大量汽化热并使电子组件的温度降低,而后当该热传导介质以汽态扩散至热管12之冷凝端121时,该热传导介质即可贴附于该等毛细结构上并冷凝成液态而朝热管12之蒸发端122回流,同时并藉该等散热器11将大量液化热散发出去。 [0005] In actual use, wherein one end of the heat pipe is used as an evaporator section with the electronic components mounted on a base of the heat pipe is connected to the other end of the heat pipe is used as the condensing section and for most of the heat radiation fins mounting plate, see FIG. I, the perspective view of FIG art heat dissipation device of a conventional system, the conventional heat dissipation device 10 of the system 11 and by the at least one heat pipe 12 having a heat sink composed of a plurality of heat-dissipating fins of the composition, the heat pipe 12 - the end of a condensation end 121 and the other end to an evaporator end 122, the condensing end of the heat sink 121 is provided through line 11, and the absorbent system evaporator end 122 of the heat generated by the electronic components, so that when when the heat pipe evaporator end 122 of heat 12, the heat transfer medium in the evaporator end 122, i.e., will vaporize and absorb large amounts of heat of vaporization and the electronic component temperature drop, and then when the heat conducting medium is diffused into a vapor state 121 condensing end of the heat pipe 12 of the heat transfer medium to such a capillary structure is attached to and condensed into a liquid toward the end of the evaporator 12 of the heat pipe 122 to reflux, while the radiator 11 and, by such a large amount of dissipated heat of liquefaction.

[0006] 现有的散热装置10之散热器11系由复数散热鳍片所组成,并由热管12之冷凝端121穿设,且为达到具有较佳之散热效果时所使用之散热鳍片数量与热管12数量也势必相对的增加,进而造成其整体体积与重量之增加,且其热传导介质之汽化与液化皆于热管12内完成,因此其散热装置10之散热效率也有限;故现有技术具有下列缺点: The number of cooling fins used when [0006] the conventional radiator 10 of the heat sink 11 by a complex system consisting of heat-dissipating fins, heat pipe condenser end by the drilled 12,112, and to achieve the better heat dissipation effect and having 12 number of heat pipes is also bound relatively increased, thereby causing an increase its overall size and weight of, and the heat transfer medium of vaporization and liquefaction are in heat in 12 is completed, so the heat dissipation efficiency of the heat sink 10 of is limited; therefore the prior art having the following disadvantages:

[0007] I.整体体积大且重量重; [0007] I. entire bulky and heavy in weight;

[0008] 2.热传及散热效率有限。 [0008] 2. The heat transfer is limited and heat dissipation efficiency.

[0009] 因此,要如何解决上述现有技术的问题与缺失,即为本案的创作人与从事此行业的相关厂商所亟欲研究改善的方向所在。 [0009] Therefore, to how to solve the problem with the lack of the prior art, namely the case of the creation of man and engaged in this industry related manufacturers anxious to improve research direction lies.

发明内容 SUMMARY

[0010] 本发明之主要目的在提供一种可减少散热装置整体重量的散热装置及其制造方法。 The heat dissipation device and its manufacturing method [0010] The main object of the present invention to provide a heat sink to reduce the overall weight of the device. [0011] 本发明之次要目的在提供一种可提高热传导效率与散热效能的散热装置及其制造方法。 [0011] Secondary object of the present invention to provide a heat transfer efficiency of the heat sink and method for manufacturing the heat dissipation performance is improved.

[0012]为达上述目的,本发明系提出一种散热装置,系包括:一个第一腔体、一个第二腔体及复数连接件,该第一腔体内界定有一个第一腔室及该第二腔体内界定有一个第二腔室,而该等连接件两端分别具有一个第一开口及一个第二开口,该第一开口及第二开口间连通有一个通道,且该第一开口系连接所述第一腔体,而该第二开口系连接所述第二腔体,而使第一腔体之第一腔室透过所述通道连通该第二腔体之第二腔室;藉此,其第一腔室内所具有之工作液体受热后,会产生汽化并通过通道至第二腔室,并于第二腔室内冷凝成液态后再由通道送回第一腔室进而达到散热,使之可同时具有大幅提高其散热效率与减少整体体积与与重量之特性者。 [0012] To achieve the above object, the invention provides a heat dissipation device, system comprising: a first cavity, a second cavity and a plurality of connecting member, the body defining a first chamber having a first chamber and the the body defining a second chamber having a second chamber, and both ends of each such connector member having a first opening and a second opening, between the first opening and the second opening communicating with a through passage, and the first opening the line connecting the first cavity and the second opening line connecting the second cavity, the first cavity of the first chamber of the second communication chamber of the second chamber through the passage ; whereby, after which the heated working fluid has the first chamber, generated by the vaporization and passage to the second chamber, and is condensed into liquid in the second chamber and then back to the first chamber by a passage and then to cooling, so that it can simultaneously have to significantly increase their efficiency and reduce the heat dissipation characteristics of the overall volume and weight of the person.

[0013] 为达到上述目的本发明系提出一种散热装置制造方法,其包含:提供一个第一腔体并界定有一个第一腔室;再提供一个第二腔体并界定有一个第二腔室;接着提供复数连接件且各连接件内界定有一个通道;透过复数连接件连接所述第一腔体及第二腔体,并使通道连通所述第一腔室及第二腔室;提供一个导管,该导管具有一个第一端外露在该第二腔体外,及一个第二端连通该第二腔室;通过该导管将第一腔室及通道及第二腔室内的空气抽出,再通过该导管将工作液体馈入该第二腔室内;而后封闭该导管的第一端;藉此,由第二腔室馈入之工作液体会流至第一腔室,其第一腔室内之工作液体受热后,会产生汽化并通过通道至第二腔室,并于第二腔室内冷凝成液态后再由通道送回第一腔室进而达到散热,使可同时具有提高其散热效率与减少整体体积 [0013] proposed a method for manufacturing a heat sink for the system to achieve the above object of the present invention, comprising: providing a first cavity and defining a first chamber; and then providing a second chamber and defining a second chamber chamber; and then providing a plurality of connecting members each connecting the inner member defining a passage; connecting the first cavity and the second cavity through a plurality of connecting members, and the passage communicating the first chamber and the second chamber ; providing a conduit having a first end exposed in the second cavity body, and a second end communicating with the second chamber; conduit through which the air chamber and the first channel and the second extraction chamber , then the working fluid through the conduit into the second feed chamber; then a first closed end of the conduit; whereby the second chamber is fed into the working fluid flows to the first chamber having a first chamber When heated, the working fluid chamber, vaporized and will produce through the passage to the second chamber, and is condensed into liquid in the second chamber and then back to the first chamber by a passage and then to heat, so that it can improve heat dissipation efficiency while having and reducing the overall volume of 与与重量之特性者;故本发明具有下列优点: And the weight of the persons and properties; therefore the present invention has the following advantages:

[0014] I.减少整体体积与与重量; [0014] I. reducing the overall volume and weight;

[0015] 2.提高热传导效率与散热效能。 [0015] 2. The heat transfer efficiency and improved thermal performance.

附图说明 BRIEF DESCRIPTION

[0016] 图I为先前技术散热装置之立体图; [0016] Figure I is a perspective view of a prior art heat sink;

[0017] 图2为本发明散热装置之立体图; [0017] FIG. 2 is a perspective view of a heat device of the invention;

[0018] 图3为本发明散热装置之正面剖视图; [0019] 图4为本发明散热装置之实施示意图; [0018] Figure 3 is a front cross-sectional view of the invention, the heat sink; [0019] FIG. 4 is a schematic embodiment of the present invention, the heat dissipation device;

[0020] 图5为本发明另一散热装置之正面剖视图; [0020] FIG. 5 a front sectional view showing another heat dissipating device of the present invention;

[0021] 图6为本发明再一散热装置之立体图; [0021] FIG. 6 another perspective view of the device of the present invention, the heat dissipation;

[0022] 图7A为本发明又一散热装置之正面剖视图一; [0022] FIG. 7A further present a front sectional view of a heat dissipation device of the invention;

[0023] 图7B为本发明又一散热装置之正面剖视图二; [0023] FIG. 7B present a front cross-sectional view of two heat dissipation device of the invention further;

[0024] 图8为本发明散热装置制造方法之流程图; [0024] FIG 8 is a flowchart of a method for manufacturing the heat sink to the invention;

[0025] 图9为本发明散热装置制造方法之实施示意图; [0025] FIG. 9 embodiment of the method of the present invention, a schematic view of apparatus for producing heat;

[0026] 主要组件符号说明 [0026] Description of Symbols major components

[0027] 散热装置20 [0027] The heat sink 20

[0028] 第一腔体30 [0028] The first cavity 30

[0029] 第一腔室31 [0029] The first chamber 31

[0030]第一通口 32[0031] 第二腔体40 [0030] The first port 32 [0031] The second cavity 40

[0032] 第二腔室41 [0032] The second chamber 41

[0033]第二通口 42 [0033] a second port 42

[0034] 连接件5O [0034] The connecting member 5O

[0035]第一开口 51 [0035] The first opening 51

[0036]第二开口 52 [0036] The second opening 52

[0037]通道 53 [0037] Channel 53

[0038] 毛细结构层60 [0038] The wick structure 60

[0039] 散热鳍片组70 [0039] The fin assembly 70

[0040]导管 80 [0040] 80 conduit

[0041]第一端 81 [0041] The first end 81

[0042]第二端 82 [0042] The second end 82

具体实施方式 Detailed ways

[0043] 本发明之上述目的及其结构与功能上的特性,将依据所附图式之较佳实施例予以说明。 [0043] The objects and features of the structure and characteristics of the present invention, will be described based on the accompanying drawings of the preferred embodiment.

[0044] 请参阅图2、3、4,系为本创作之散热装置之第一实施例立体图及正面剖视图及实施示意图,如图所示,所述散热装置20系包括一个第一腔体30、一个第二腔体40及复数连接件50 ; [0044] Referring to FIG. 3, 4, a perspective view of a first embodiment of the system of the present embodiment of the heat sink and the creation of a front view and a cross-sectional schematic view of embodiment, as shown, the heat sink 20 includes a first cavity line 30 , a second cavity 40 and a plurality of connecting member 50;

[0045] 所述第一腔体30内界定有一个第一腔室31,该第一腔室31内具有工作液体,而该等连接件50两端分别具有一个第一开口51及一个第二开口52,该第一开口51及第二开口52间连通有一个通道53,且该第一开口51系连接所述第一腔体30,该第一腔体30对应于第一开口51位置处具有复数第一通口32,且该第一开口51系延伸连接所述第一通口32,并使通道53透过第一开口51连通所述第一腔室31 ; The inner body 30 defines [0045] The first chamber has a first chamber 31, the working fluid having a first chamber 31, and such connecting member 50 having two ends respectively a first and a second opening 51 opening 52, the first opening 51 and second opening 52 has a communication passage 53, and the first opening 51 of the connection system of the first cavity 30, the first cavity 30 corresponding to the opening 51 at a first position having a plurality of first port 32, a first opening 51 and the connecting line extending through the first opening 32, and passage 53 communicates the first chamber 31 through the first opening 51;

[0046] 该第二腔体40内界定有一个第二腔室41,而该第二开口52系连接所述第二腔体40,该第二腔体40对应于第二开口52处具有复数第二通口42,且该第二开口52系延伸连接所述第二通口42,并使通道53透过第二开口52连通所述第二腔室41 ; Within [0046] the second cavity 40 defines a second chamber 41, the second opening 52 and the line 40 connected to the second chamber, the second chamber 40 corresponding to the second opening 52 has a plurality of the second port 42, opening 52 and the second connecting line extending through the second port 42, and a second passage 53 through the opening 52 communicating the second chamber 41;

[0047] 由此,该散热装置20得设置于一个发热源之周遭(即以接触或非接触的方式设置于发热源之邻近处),于本实施例中,该第一腔体30系即为所称的蒸发端或受热端,并由其第一腔体30吸收其发热源散溢于周遭环境之热量/热能,并将该热量/热能引导至第二腔体40,其第二腔体40即为所称的冷凝端或散热端,亦即,当发热源产生热量/热能时,该第一腔体30便吸收其产生之热量/热能,而其第一腔室31内所具有之工作液体受热后便蒸发向上,进而通过其中至少一个通道53至第二腔室41,直到蒸汽到达第二腔室41放出潜热后转变成为液体后,再由其余通道53送回第一腔室31完成一个工作循环并达到散热。 [0047] Accordingly, the heat sink 20 is provided to get around a source of heat (i.e., in a contact or noncontact manner is provided in the vicinity of the heat source), in the present embodiment, the first cavity 30 that is based referred to as terminal or heat evaporation end by a first cavity 30 to absorb the heat source heat escapes to the surrounding environment / energy, and directing the heat / energy to the second chamber 40, a second chamber 40 shall be called the condensing end side member or heat sink, i.e., when the heat source generates heat / energy, the first cavity 30 will absorb the heat / energy arising thereof, while the first chamber 31 has after evaporation of the working fluid to heat up, and further wherein the at least one through passage 53 to the second chamber 41 until the steam reaches the second cavity 41 after transformation into a liquid after releasing latent heat, and then returned to rest by the passage 53 of the first chamber 31 complete a cycle and to achieve cooling.

[0048] 又或系将其第二腔体40设置于所述发热源之周遭,其第二腔体40即为所称的蒸发端或受热端,相对其第一腔体30即为所称的冷凝端或散热端,亦同样可完成一个工作循环达到散热之效果。 [0048] or another system to a second cavity 40 is disposed around the source of heat, a second cavity 40 is the end of the evaporator or heat-called end 30 that is opposite that of the first mentioned chamber terminal end or condensation heat, may also complete a cycle similar to the effect of heat dissipation.

[0049] 请参阅图5所示,系为本发明散热装置之另一较佳实施例,该其整体结构及组件连结关系大致与前一实施例相同,在此不另外赘诉相同处,在本实施例中相较前一实施例不同处为所述第一腔体30及第二腔体40及连接件50内壁上设置有至少一个毛细结构层60,以使其发热组件产生热量时,该第一腔体30于毛细结构层60上流动的工作流体随即受热而蒸发为蒸汽,且于蒸汽到达第二腔室41放出潜热后转变成为液体后,再通过第二腔室41与信道53之毛细结构层60的毛细力流回到第一腔室31完成一个工作循环达到散热。 [0049] Please refer to FIG. 5, the heat sink of the system further preferred embodiment of the invention, the overall structure and the assembly of the connection relationships substantially same as the previous embodiment, no additional superfluous here at the same appeal, in Examples of the different embodiments of the embodiment a first cavity 30 and second cavity 40 and the connecting member 50 is provided on the inner wall of at least one wick layer 60, so as to generate heat prior to the heating element of the present embodiment in comparison, the working fluid 30 flowing to the wick layer 60 of the first chamber then heated and evaporated into steam, and the steam chamber 41 reaches a second transition after releasing the latent heat of a liquid, then through the second chamber 41 and the channel 53 the capillary force of the wick layer 60 is a first chamber 31 flows back to complete a cycle to achieve cooling.

[0050] 请参阅图6所示,系为本发明散热装置20之再一较佳实施例,该其整体结构及组件连结关系大致与前一实施例相同,在此不另外赘诉相同处,在本实施例中相较前一实施例不同处为所述各相邻之连接件50间具有至少一个散热鳍片组70,以于蒸汽或液体通过所述通道53 (如图3所示)时,可透过其散热鳍片组70同时可将热散发出去,进而提升其散热装置20之散热效果。 [0050] Please refer to FIG. 6, and then the heat sink 20 of a preferred embodiment of the system of the present invention, the overall structure and the assembly is substantially the same coupling relation to the previous embodiment embodiment, which is not the same as the additional superfluous v, in the present embodiment, compared to the previous embodiment is different from the sum of the respective adjacent connecting member 50 having at least one heat dissipating fin set 70, to the steam or liquid through the passage 53 (FIG. 3) when, at the same time heat may be dissipated through the heat radiation fins 70, thereby enhancing the heat dissipation effect of the heat sink 20.

[0051] 请参阅图7A所示,为本发明散热装置又一较佳实施例,该其整体结构及组件连结关系大致与前一实施例相同,在此不另外赘诉相同处,在本实施例中相较前一实施例不同处为,该等第二开口52系为等高或不等高状态,即部分通道53之第二开口52系通过所述第二通口42且延伸至第二腔室41位置处,以于该第一腔室31之工作液体受热后蒸发蒸汽可由第二开口52延伸第二腔室41之通道53送至第二腔室41,而该蒸汽到达第二腔室41放出潜热后转变成为液体后可由第二开口52延伸第二通口42之通道53流至第一腔室31,已有效区分其液体与蒸汽之通道53 ;请参阅图7B所示,系将其第二腔体40设置于所述发热源之周遭/邻近处,其第二腔体40即为所称的蒸发端或受热端,相对其第一腔体30即为所称的冷凝端或散热端,该等第一开口51系为等高或不等高状态,即其部分通道53之 [0051] Please refer to FIG. 7A, a further preferred embodiment of the heat dissipation device of the present invention, the overall structure and the assembly is substantially the same coupling relation with the previous embodiment, and will not at the same appeal neoplastic further, the present embodiment Examples Example differences as compared with a prior embodiment, the second opening 52 such as contour lines or contour state, i.e., the second port 53 of the second portion of the channel opening 52 through line 42 and extends second chamber 41 at a position to the rear of the first chamber 31 of the working fluid vapor evaporated by the second heat receiving opening 52 extends from the second chamber 53 to the passage 41 of the second chamber 41, the steam reaches the second after the chamber 41 after releasing the latent heat of the liquid may be transformed into a second opening 52 extending through the second inlet passage 53 flows into the first chamber 31 of the chamber 42, which has effectively distinguish passage of liquid and vapor 53; see FIG. 7B, a second line which is disposed in the cavity 40 of the heat source surrounding / adjacent to, a second cavity 40 is the end of the evaporator or heat-called end, opposite a first cavity 30 that is called condensed end or the end of heat, a first opening 51 such as contour lines or contour state, i.e., that portion of channel 53 一开口51系通过所述第一通口32系延伸至第一腔室31位置处,以于该第二腔室41之工作液体受热后蒸发蒸汽可由第一开口51延伸第一腔室31之通道53送至第一腔室31,而该蒸汽到达第一腔室31放出潜热后转变成为液体后可由第一开口51延伸第一通口32之通道53流至第二腔室41,已有效区分其液体与蒸汽之通道53。 A Department of opening 51 extends into the first chamber 31 at a position by the lines of the first port 32 to the second chamber to the working liquid 41 by the steam heating the evaporator 51 extends a first opening of the first chamber 31 a first passage 53 to the chamber 31, and the steam reaches the chamber 31 after first releasing the latent heat of the liquid may be transformed into a first opening 51 extending through the first opening 32 of the passage 53 flows to the second chamber 41, is effective distinguish which channel 53 of the liquid to vapor.

[0052] 请参阅图8、9,系为本发明散热装置20制造方法第一实施例之流程图及实施示意图并合并参阅图2、3、4,上述的结构系经由下例步骤完成,如图所示,本发明散热装置之制造方法系包含下列步骤: [0052] Referring to FIG. 8 and 9, a first embodiment and a flowchart of the embodiment and a schematic combined method refer to FIG. 20, 3, 4 for producing the heat sink system of the present invention, the above-described structure of the embodiment based accomplished via steps such as FIG, a method for manufacturing the heat sink of the system according to the present invention comprises the steps of:

[0053] 步骤I (spl):提供一个第一腔体并界定有一个第一腔室; [0053] Step I (spl): providing a first chamber and defining a first chamber;

[0054] 提供一个第一腔体30且将其第一腔体30与其内所形成之空间界定为一个第一腔室31,且将其第一腔室31—侧形成有复数第一通口32。 [0054] providing a first cavity 30 and the space formed in the first cavity 30 which defines therewith a first inner chamber 31, and the chamber having a first side formed with a plurality of 31- first port 32.

[0055] 步骤2 (sp2):提供一个第二腔体并界定有一个第二腔室; [0055] Step 2 (sp2): providing a second chamber and defining a second chamber;

[0056] 提供一个第二腔体40且将其第二腔体40与其内所形成之空间界定为一个第二腔室41,且将其第二腔室41 一侧形成有复数第二通口42。 [0056] to provide a second cavity 40 and second cavity which is formed in the space 40 with an inner cavity defining a second chamber 41, and the second cavity 41 which is formed with a plurality of second side port 42.

[0057] 步骤3 (sp3):提供复数连接件且各连接件界定有一个通道; [0057] Step 3 (sp3): providing a plurality of connector and each connector member defining a passage;

[0058] 提供复数连接件50,该等连接件50两端分别具有一个第一开口51及一个第二开口52,且第一开口51及第二开口52间连通有一个通道53。 [0058] providing a plurality of connecting members 50, 50 at both ends of each such connector member 51 having a first opening and a second opening 52, and the first opening 51 and second opening 52 has a passage 53 communicating.

[0059] 步骤4 (sp4):透过复数连接件连接所述第一腔体及第二腔体,并使通道连通所述 [0059] Step 4 (sp4): through a plurality of connecting members connecting said first cavity and the second cavity, and said communication passage

第一腔室及第二腔室; A first chamber and a second chamber;

[0060] 将该等连接件50两端分别连接所述第一腔体30及第二腔体40,且将其第一开口51对应连接其第一通口32,而其第二开口52对应连接其第二通口42,使其通道53连通所述第一腔室31及第二腔室41。 [0060] The other ends of the connection member 50 are respectively connected to the first cavity 30 and second cavity 40, and which corresponds to a first opening 51 which is connected to a first port 32, while the second opening 52 corresponding to the a second connecting port 42, the communication passage 53 so that the first chamber 31 and second chamber 41. [0061] 步骤5(sp5):提供一个导管选择设于第一腔体或第二腔体其中任一; [0061] Step 5 (sp5): selecting a conduit disposed in the first cavity or the second cavity either;

[0062] 该导管80具有一个第一端81及一个第二端82,于该导管80设于所述第一腔体30时,该第一端81系外露在该第一腔体30外,而第二端82连通该第一腔室31,又或该导管80设于所述第二腔体40时,该第一端81系外露在该第二腔体40外,而第二端82连通该第二腔室41 ;于本实施例中,其导管系设置于第一腔体30。 [0062] The conduit 80 has a first end 81 and a second end 82, the catheter 80 is provided in the first cavity 30, the exposed first end 81 in line 30 outside the first cavity, and a second end 82 communicating the first chamber 31, or the conduit 80 and disposed in the second cavity 40, the first end 81 in line 40 is exposed outside the second cavity, and the second end 82 communication with the second chamber 41; in this embodiment, the conduit system which is provided in the first cavity 30.

[0063] 步骤6 (sp6):透过该导管将第一腔室及通道及第二腔室内的空气抽出,再透过该导管将工作液体馈入该第一腔室或第二腔室其中任一; [0063] Step 6 (sp6): the catheter through the first passageway and the air chamber and the second chamber is withdrawn through the catheter and then the working fluid is fed into the first chamber or the second chamber wherein Either;

[0064] 透过该导管80将其第一腔室31及通道53及第二腔室41内的空气抽出,使其第一腔室31及通道53及第二腔室41内呈现真空,再透过其导管80将工作液体馈入该第一腔室31或第二腔室41其中任一;而于本实施例中,系以将其工作液体馈入该第一腔室31为实施方式。 [0064] 80 to 41 in which a first air chamber 31 and the passage 53 and the second chamber is withdrawn through the catheter, so that the first chamber 31 and the passage 53 and the second chamber 41 is a vacuum, then conduit 80 through which the working fluid is fed into the first chamber 31 or second chamber 41 either; and in the present embodiment, fluid lines so as to be fed into the working chamber 31 of the first embodiment .

[0065] 步骤7(sp7):封闭该导管的第一端。 [0065] Step 7 (sp7): closing the first end of the catheter.

[0066] 封闭该导管80的第一端,使其第一腔体30、通道53及第二腔体40内为真空且封闭之状态。 [0066] The first end of the conduit 80 is closed, making a first cavity 30, the passage 53 and the second vacuum chamber 40 and the closed state.

[0067] 藉此,该第一腔体30系设置于所述发热源之周遭处,用以吸收发热源产生之热量/热能时,该第一腔体30便吸收其发热源散溢于周遭环境的热量/热能,令其第一腔室31内所具有之工作液体受热后蒸发向上,进而通过其中至少一个通道53至第二腔室41,直到蒸汽到达第二腔室41放出潜热后转变成为液体后,再由其余通道53送回第一腔室31完成一工作循环并达到散热。 When [0067] Accordingly, the first cavity 30 is provided in the system at the ambient source of heat for the heat absorption / heat generation of the heat source, the first cavity 30 will absorb heat source escapes to the surrounding heat / heat environment, the working liquid is heated so that it has a first direction within the evaporation chamber 31, and further wherein the at least one through passage 53 to the second chamber 41, second chamber 41 until the steam after releasing latent heat reaches the transition after a liquid, and then returned to the first chamber from the rest of the channels 5331 a complete working cycle and to achieve cooling.

[0068] 其中所述第一腔室31及第二腔室41及通道53上可形成有至少一个毛细结构层60,以使其发热组件产生热量时,该第一腔体30于毛细结构层60上流动的工作流体随即受热而蒸发为蒸汽,且于蒸汽到达第二腔室41放出潜热后转变成为液体后,再通过第二腔室41与信道53之毛细结构层60的毛细力流回到第一腔室31完成一工作循环达到散热。 [0068] wherein the first chamber 31 and second chamber 41 and the passage 53 may be at least when there is a wick layer 60, so as to form a heating element generates heat, the first cavity 30 to the wick layer the working fluid flow 60 then heated and evaporated into steam, and the steam reaches the liquid after transformation into latent heat release of the second chamber 41, and then the second chamber 41 and the capillary force of the capillary channel 53 of the structural layer 60 flows back through to complete the first chamber 31 reaches a work cycle cooling.

[0069] 又其中该其第一腔体30、通道53及第二腔体40内为真空且封闭之状态后,具有一步骤系将其导管60移除,以便于将其散热装置20组设使用。 [0069] and wherein a first of the cavities 30, channels 53 and the second cavity 40 is closed and the vacuum state, having a step system to remove the catheter 60, the group 20 is provided to facilitate the heat dissipation means use.

[0070] 虽然本发明以实施方式揭露如上,然其并非用以限定本发明,任何熟悉此技艺者,在不脱离本发明的精神和范围内,当可作各种的更动与润饰,因此本发明之保护范围当视后附的申请专利范围所定者为准。 [0070] While the invention has been described by way of embodiment, they are not intended to limit the invention, those skilled in this art, without departing from the spirit and scope of the present invention, may make various modifications and variations, so the scope of the present invention when appended claims which are predetermined range and their equivalents.

Claims (11)

1. 一种散热装置,其特征在于,包含: 一个第一腔体,界定有一个第一腔室; 一个第二腔体,界定有一个第二腔室; 复数连接件,该等连接件具有一个第一开口及一个第二开口及至少一个通道,该第一、二开口与该通道相连通,该等连接件之第一开口及第二开口分别连接前述第一腔体及该第二腔体,并透过该通道与该第一腔体及该第二腔体相连通。 1. A heat dissipation device comprising: a first cavity defining a first chamber; a second chamber defining a second chamber; a plurality of connecting members, such connecting member having a first opening and a second opening and at least one channel, the first and second opening communicating with the passageway, the first opening and the second opening of the connecting member are connected to those of said first chamber and the second chamber body, and through the channel to the first cavity and the second cavity communicating.
2.如权利要求I所述的散热装置,其特征在于,所述第一腔体对应于第一开口位置处具有复数第一通口,且该第一开口系延伸连接所述第一通口或通过所述第一通口延伸至第一腔室。 2. The heat dissipation device as claimed in claim I, wherein said first cavity a first opening at a position corresponding to the plurality having a first port, and the first opening of the connecting line extending through the first opening or extending into the first chamber through the first port.
3.如权利要求I所述的散热装置,其特征在于,所述第二腔体对应于第二开口位置处具有复数第二通口,且该第二开口系延伸连接所述第二通口或通过所述第二通口延伸至第二腔室。 The heat dissipation apparatus according to claim I, wherein the second cavity corresponding to the second opening position having a plurality of second port, and the second opening line extending connecting said second port or extending to the second chamber through the second port.
4.如权利要求I所述的散热装置,其特征在于,所述连接部通道透过第一开口及第二开口连通所述第一腔室及第二腔室。 The heat dissipation device as claimed in claim I, wherein said connection passage portion through the first opening and the second opening communicating the first chamber and the second chamber.
5.如权利要求I所述的散热装置,其特征在于,所述相邻之连接部间具有至少一个散热鳍片组。 The heat dissipation apparatus according to claim I, characterized in that the connection between the adjacent portions of the group having at least one heat dissipating fins.
6.如权利要求I所述的散热装置,其特征在于,所述第一腔体及第二腔体及连接件内具有至少一个毛细结构层及工作液体。 6. The heat dissipation device as claimed in claim I, wherein at least one layer of a capillary structure and a working fluid within the first cavity and the second cavity and the connecting member.
7. 一种散热装置制造方法,其特征在于,包含下列步骤: 提供一个第一腔体并界定有一个第一腔室; 提供一个第二腔体并界定有一个第二腔室; 提供复数连接件且各连接件界定有一个通道; 透过复数连接件连接所述第一腔体及第二腔体,并使通道连通所述第一腔室及第二腔室; 提供一个导管选择设于第一腔体或第二腔体其中任一; 透过该导管将第一腔室及通道及第二腔室内的空气抽出,再透过该导管将工作液体馈入该第一腔室或第二腔室其中任一;及封闭该导管的第一端。 A method for manufacturing a heat dissipating apparatus, wherein, comprising the steps of: providing a first cavity and defining a first chamber; a second chamber and defining a second chamber; providing a plurality of connector and each connector member defining a passage; connecting the first cavity and the second cavity through a plurality of connecting members, and the passage communicating the first chamber and a second chamber; a conduit disposed in selected a first cavity or the second cavity either; transmitted through the air duct passage and the first chamber and the second chamber is withdrawn through the conduit and then fed into the working fluid chamber of the first or second wherein any of a second chamber; and sealing the first end of the conduit.
8.如权利要求7所述的散热装置制造方法,其特征在于,所述相邻之连接件间组设有至少一个散热鳍片组。 8. The method of manufacturing a heat dissipating device as claimed in claim 7, wherein the inter connecting member with at least one group of adjacent fin assembly.
9.如权利要求7所述的散热装置制造方法,其特征在于,所述第一腔室及第二腔室及通道上形成有至少一个毛细结构层。 9. The method of manufacturing a heat dissipation device as claimed in claim 7, wherein the capillary structure is formed at least one layer on the first chamber and the second chamber and a channel.
10.如权利要求7所述的散热装置制造方法,其特征在于,封闭该导管的第一端后,更具有一步骤系将其导管移除。 10. The method of manufacturing a heat dissipation device as claimed in claim 7, wherein the closed first end of the conduit, having a further step to the catheter system removed.
11.如权利要求7所述的散热装置制造方法,其特征在于,所述导管具有一个第一端及一个第二端,于该导管设于所述第一腔体时,该第一端系外露在该第一腔体外,而第二端连通该第一腔室,又或该导管设于所述第二腔体时,该第一端系外露在该第二腔体外,而第二端连通该第二腔室。 11. The method of manufacturing a heat dissipation device as claimed in claim 7, characterized in that, said conduit having a first end and a second end, the catheter is provided in said first cavity, a first end of the line when exposed at the first outside the chamber, and the second end of the first communicating chamber, and the catheter, or disposed in the second cavity, the first end of the second line is exposed outside the chamber, and the second end communication with the second chamber.
CN2011100573067A 2011-03-08 2011-03-08 Heat radiation device and manufacturing method thereof CN102686082A (en)

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