CN113251840B - Floating heat pipe assembly - Google Patents

Abstract

Translated fromChinese

本发明提供一种浮动热管总成，包括一管体及一夹持件，该管体具有一压扁段比该管体的其余部位的管径还薄，以使该管体可浮动调整形成一高低位置差的错位设置，该夹持件套设在该管体的压扁段，具有对称地设置的两弹性夹臂夹持在该压扁段的相对两外侧，如此固持该压扁段，防止该高低位置差的错位设置的管体因变形而造成毛细力效率的降低或失能。

The present invention provides a floating heat pipe assembly, comprising a pipe body and a clamping member. The pipe body has a flattened section which is thinner than the diameter of the rest of the pipe body, so that the pipe body can be floated and adjusted to form a misaligned setting with a high and low position difference. The clamping member is sleeved on the flattened section of the pipe body and has two symmetrically arranged elastic clamping arms that clamp the two opposite outer sides of the flattened section, thereby fixing the flattened section to prevent the pipe body with the misaligned setting with a high and low position difference from being deformed, thereby preventing the capillary force efficiency from being reduced or disabled.

Description

Translated fromChinese

浮动热管总成Floating heat pipe assembly

技术领域Technical Field

本发明涉及热管领域，尤其指一种浮动热管总成及其夹持件。The invention relates to the field of heat pipes, and in particular to a floating heat pipe assembly and a clamping part thereof.

背景技术Background Art

热管是一种中空的金属管体，且于管体的腔内填充有适量的一工作流体。热管的散热原理是凭借工作流体的二相变化，也就是工作流体会先在管体一端的一蒸发段所相应的热源上进行吸热形成汽化，而从液态相变成气态，并于管体内扩散与传递热量通过一绝热段至管体另一端的一冷凝段上，来达到远端传热的目的。A heat pipe is a hollow metal tube filled with a proper amount of working fluid. The heat dissipation principle of a heat pipe is based on the two-phase change of the working fluid, that is, the working fluid will first absorb heat and vaporize at the heat source corresponding to an evaporation section at one end of the tube, and then change from liquid to gas, and diffuse and transfer heat in the tube through an insulation section to a condensation section at the other end of the tube to achieve the purpose of remote heat transfer.

而一般现有的热管通常会搭配散热单元(诸如扣接式鳍片组或铝挤型鳍片组或散热器)构成一散热模块，以组设在一电子装置(如电脑、伺服器或通讯机箱、手机或手持装置)内来对机板上的发热源进行散热。Conventional heat pipes are usually combined with a heat dissipation unit (such as a snap-on fin assembly or an aluminum extruded fin assembly or a heat sink) to form a heat dissipation module, which is installed in an electronic device (such as a computer, server or communication chassis, mobile phone or handheld device) to dissipate heat from the heat source on the motherboard.

但是该电子装置机板上每一发热源的封装结构均有高度差(高低不一致)问题，令每一发热源彼此间形成有高低落差，使散热模块接触在所述发热源上的每一热管的蒸发段搭接或结合至散热器上会造成热管的二端呈高低差，但此高低落差的结合会造成热管的热传效率降低或失能；原因由在该热管的管体都为同一厚度的金属板材所制成，因此该热管的蒸发段、绝热段及冷凝段的厚度均一致；当有高低落差需求进行挠曲或弯折以调整蒸发段及冷凝段间的高度落差时，因金属材质的特性且板材厚度均一及内部毛细结构等问题，造成绝热段若扳动挠曲或弯折调整以符合高低落差的需求时，则会导致该热管的蒸发段与冷凝段两边相互拉扯的桥接力造成绝热段(传输段)发生向内挤压或向外拉扯的变形更进一步造成内部毛细结构的崩裂或脱离热管内部壁面，致使热管热传散热效率不佳，甚至失效的问题。However, the packaging structure of each heat source on the electronic device board has a height difference (inconsistent height), which causes a height difference between each heat source. When the evaporation section of each heat pipe that contacts the heat source is overlapped or combined with the radiator, the two ends of the heat pipe will have a height difference. However, the combination of this height difference will cause the heat transfer efficiency of the heat pipe to decrease or even fail. The reason is that the pipe body of the heat pipe is made of metal plates of the same thickness, so the thickness of the evaporation section, insulation section and condensation section of the heat pipe are all the same. When there is a height difference, the heat pipe body is made of metal plates of the same thickness, so the thickness of the evaporation section, insulation section and condensation section of the heat pipe are all the same. When the height difference between the evaporation section and the condensation section is adjusted by bending or flexing, due to the characteristics of the metal material, the uniform thickness of the plate and the internal capillary structure, if the insulation section is bent or flexed to meet the height difference requirement, the bridging force between the evaporation section and the condensation section of the heat pipe will cause the insulation section (transmission section) to be squeezed inward or pulled outward, which will further cause the internal capillary structure to crack or detach from the internal wall of the heat pipe, resulting in poor heat transfer and heat dissipation efficiency of the heat pipe, or even failure.

是以，要如何解决上述的问题与缺失，即为本案的发明人与从事此行业的相关厂商所亟欲研究改善的方向所在。Therefore, how to solve the above problems and deficiencies is the direction that the inventor of this case and related manufacturers engaged in this industry are eager to study and improve.

发明内容Summary of the invention

为改善上述的问题，本发明的一目的提供一种避免该浮动热管因高低落差连接产生的桥接力造成浮动热管的结构变形造成毛细力效率的降低或失能的浮动热管总成。To improve the above problems, an object of the present invention is to provide a floating heat pipe assembly that prevents the floating heat pipe from being deformed due to bridging force generated by the height difference connection, thereby reducing or disabling the capillary force efficiency.

本发明另一目的提供一种应用于浮动热管的夹持件，凭借该夹持件的套设在一管体的一压扁段，且该夹持件的两弹性夹臂夹持在该热管的压扁段的一上外侧及一下外侧，得以从管体的外部固持并加强该压扁段抵抗因高低落差设置的一桥接力。Another object of the present invention is to provide a clamping member for use in a floating heat pipe. The clamping member is sleeved on a flattened section of a pipe body, and two elastic clamping arms of the clamping member clamp an upper outer side and a lower outer side of the flattened section of the heat pipe, so that the flattened section can be fixed from the outside of the pipe body and strengthened to resist a bridging force set up due to a height difference.

为达上述的目的，本发明提供一种浮动热管总成，其特征在于，包含：To achieve the above-mentioned purpose, the present invention provides a floating heat pipe assembly, characterized in that it comprises:

一管体，具有一前段及一后段，该前段及后段分别具有一管径，一压扁段位于该前段与该后段之间且具有一压扁管径，该压扁管径小于该前段及后段的管径，一管体腔室界定在该管体内且从该前段延伸通过该压扁段到该后段，该管体腔室内具有一毛细结构及一工作液体；A tube body having a front section and a rear section, the front section and the rear section respectively having a tube diameter, a flattened section located between the front section and the rear section and having a flattened tube diameter, the flattened tube diameter being smaller than the tube diameters of the front section and the rear section, a tube body chamber defined in the tube body and extending from the front section through the flattened section to the rear section, the tube body chamber having a capillary structure and a working liquid;

一夹持件，设在该管体的压扁段，具有对称地设置的两弹性夹臂及两连接臂，该两弹性夹臂夹持在该压扁段的相对两外侧，该两连接臂连接在该两弹性夹臂之间。A clamping member is arranged at the flattened section of the tube body and has two symmetrically arranged elastic clamping arms and two connecting arms. The two elastic clamping arms are clamped at two opposite outer sides of the flattened section, and the two connecting arms are connected between the two elastic clamping arms.

该两弹性夹臂上下对称设置，且分别具有两连接端及一最凸出段，该最凸出段位于该两连接端之间并且顶抵接触该管体的压扁段，该两连接臂分别位于该两弹性夹臂的两连接端并且呈左右对称地设置，且该两弹性夹臂及该两连接臂共同界定一弹性变形空间。The two elastic clamp arms are symmetrically arranged up and down, and respectively have two connecting ends and a most protruding section, the most protruding section is located between the two connecting ends and presses against the flattened section of the tube body, the two connecting arms are respectively located at the two connecting ends of the two elastic clamp arms and are symmetrically arranged left and right, and the two elastic clamp arms and the two connecting arms jointly define an elastic deformation space.

每一弹性夹臂相对该压扁段形成一弧凸状或一平凸状，且该两连接臂朝相对或相反该压扁段形成一弧凸状，且该弧凸状不接触该压扁段。Each elastic clamp arm forms an arc convex shape or a flat convex shape relative to the flattening section, and the two connecting arms form an arc convex shape relative to or opposite to the flattening section, and the arc convex shape does not contact the flattening section.

该两弹性夹臂对称地横向设置，该两连接臂对称地垂直设置，且该两弹性夹臂及该两连接臂是一体成型。The two elastic clamping arms are symmetrically arranged transversely, the two connecting arms are symmetrically arranged vertically, and the two elastic clamping arms and the two connecting arms are integrally formed.

该压扁段的相对两外侧是一上外侧及一下外侧，且该前段及该后段凭借该压扁段浮动调整成一高低位置差的设置。The two opposite outer sides of the flattening section are an upper outer side and a lower outer side, and the front section and the rear section are floated and adjusted to a high and low position difference by means of the flattening section.

该前段及该后段分别具有一缩口端，该些缩口端分别从该前段及该后段朝该压扁段逐渐缩小管径以衔接在该压扁段的两边。The front section and the rear section each have a constricted end, and the constricted ends gradually reduce their diameters from the front section and the rear section toward the flattened section to connect to two sides of the flattened section.

本发明还提供一种浮动热管的夹持件，其特征在于，该浮动热管具有一管体，该管体的一局部构成一压扁段，该夹持件包含：The present invention also provides a clamping piece for a floating heat pipe, characterized in that the floating heat pipe has a pipe body, a part of the pipe body constitutes a flattened section, and the clamping piece comprises:

两弹性夹臂，上下对称地设置夹持在该热管的压扁段的一上外侧及一下外侧；Two elastic clamping arms are symmetrically arranged to clamp an upper outer side and a lower outer side of the flattened section of the heat pipe;

至少一连接臂，连接在该两弹性夹臂之间，以支撑该两弹性夹臂。At least one connecting arm is connected between the two elastic clamping arms to support the two elastic clamping arms.

该两弹性夹臂分别具有两连接端及一最凸出段，该最凸出段在该两连接端之间并且顶抵接触该管体的压扁段，该至少一连接臂位于该两弹性夹臂的其中一连接端，且该两弹性夹臂及该至少一连接臂共同界定一弹性变形空间。The two elastic clamp arms respectively have two connecting ends and a most protruding section, the most protruding section is between the two connecting ends and abuts against the flattened section of the tube body. The at least one connecting arm is located at one of the connecting ends of the two elastic clamp arms, and the two elastic clamp arms and the at least one connecting arm jointly define an elastic deformation space.

每一弹性夹臂相对该压扁段形成一弧凸状或一平凸状，且该至少一连接臂朝相对或相反该压扁段形成一弧凸状。Each elastic clamping arm forms an arc convex shape or a flat convex shape relative to the flattening section, and the at least one connecting arm forms an arc convex shape relative to or opposite to the flattening section.

至少一连接臂包括两连接臂，该两连接臂分别位于该两弹性夹臂的两连接端而呈左右对称地设置且不接触该压扁段。The at least one connecting arm comprises two connecting arms, and the two connecting arms are respectively located at two connecting ends of the two elastic clamping arms and are arranged in a bilaterally symmetrical manner and do not contact the flattening section.

该管体具有位于该压扁段的两边的前段及后段，且该前段及该后段凭借该压扁段浮动调整成一高低位置差的设置。The tube body has a front section and a rear section located on both sides of the flattened section, and the front section and the rear section are floated and adjusted to a high and low position difference by means of the flattened section.

该前段与该后段分别界定一管径，该压扁段位于该前段与该后段之间且界定一压扁管径，该压扁管径小于该前段以及后段的管径，一管体腔室界定在该管体内且从该前段延伸通过该压扁段到该后段，该管体腔室内具有一毛细结构及一工作液体。The front section and the rear section define a tube diameter respectively. The flattened section is located between the front section and the rear section and defines a flattened tube diameter. The flattened tube diameter is smaller than the tube diameters of the front section and the rear section. A tube body chamber is defined in the tube body and extends from the front section through the flattened section to the rear section. A capillary structure and a working liquid are provided in the tube body chamber.

本发明通过如此固持该压扁段，能够防止该高低位置差的错位设置的管体因变形而造成毛细力效率的降低或失能。By fixing the flattened section in this way, the present invention can prevent the tube body with a misaligned height difference from being deformed to cause a reduction in capillary force efficiency or disability.

附图说明BRIEF DESCRIPTION OF THE DRAWINGS

图1为本发明浮动热管总成的立体分解示意图；FIG1 is a perspective exploded schematic diagram of a floating heat pipe assembly of the present invention;

图2为本发明浮动热管总成的立体组合示意图；FIG2 is a three-dimensional schematic diagram of the floating heat pipe assembly of the present invention;

图3为本发明夹持件设在该压扁段的剖视示意图；FIG3 is a cross-sectional schematic diagram of the clamping member of the present invention disposed at the flattening section;

图4A为图2的浮动热管总成的长方向剖视示意图；FIG4A is a schematic cross-sectional view of the floating heat pipe assembly of FIG2 in the long direction;

图4B为图4A局部放大示意图；FIG4B is a partial enlarged schematic diagram of FIG4A;

图5A-图5C为本发明夹持件的各种实施示意图；5A-5C are schematic diagrams of various implementations of the clamping member of the present invention;

图6为本发明浮动热管总成的前段及后段调整成高低位置差的错位设置的示意图。FIG. 6 is a schematic diagram of a front section and a rear section of a floating heat pipe assembly of the present invention being adjusted to a staggered arrangement with a height difference.

附图标记说明：浮动热管总成10；管体11；前段111；缩口端1111；压扁段112；上外侧1121；下外侧1122；后段113；缩口端1131；管体腔室114；毛细结构115；工作液体116；管径D1、D3；压扁管径D2；夹持件12；弹性变形空间121；弹性夹臂122；连接端1221、1222；最凸出段1223；连接臂123。Explanation of the reference numerals: floating heat pipe assembly 10; pipe body 11; front section 111; necked end 1111; flattened section 112; upper outer side 1121; lower outer side 1122; rear section 113; necked end 1131; pipe body chamber 114; capillary structure 115; working liquid 116; pipe diameters D1, D3; flattened pipe diameter D2; clamping member 12; elastic deformation space 121; elastic clamping arm 122; connecting ends 1221, 1222; most protruding section 1223; connecting arm 123.

具体实施方式DETAILED DESCRIPTION

本发明的上述目的及其结构与功能上的特性，将依据所附图式的较佳实施例予以说明。The above-mentioned objects and the structural and functional characteristics of the present invention will be described based on the preferred embodiments shown in the accompanying drawings.

请参阅图1为本发明浮动热管总成的立体分解示意图；图2为本发明浮动热管总成的立体组合示意图；图3为本发明夹持件设在该压扁段的剖视示意图；图4A为图2的浮动热管总成的长方向剖视示意图；图4B为图4A局部放大示意图。如图所示，浮动热管总成10包括一管体11及一夹持件12，该管体11例如为一圆型热管且为金属材质(例如金、银、铝、不锈钢、铜、钛或合金)构成，该管体11具有一前段111及一后段113，该前段111与该后段113之间具有一压扁段112衔接该前段111及该后段113。且该前段111及该后段113分别具有一缩口端1111，1131分别从该前段111及该后段113朝该压扁段112逐渐缩小管径以衔接在该压扁段112的两边。一管体腔室114界定在该管体11内，从该前段111延伸通过该压扁段112到该后段113，该管体腔室114内具有一毛细结构115及一工作液体116。Please refer to FIG. 1 for a perspective exploded schematic diagram of the floating heat pipe assembly of the present invention; FIG. 2 for a perspective combined schematic diagram of the floating heat pipe assembly of the present invention; FIG. 3 for a cross-sectional schematic diagram of the clamping member of the present invention disposed at the flattened section; FIG. 4A for a longitudinal cross-sectional schematic diagram of the floating heat pipe assembly of FIG. 2; and FIG. 4B for a partial enlarged schematic diagram of FIG. 4A. As shown in the figure, the floating heat pipe assembly 10 includes a pipe body 11 and a clamping member 12. The pipe body 11 is, for example, a round heat pipe and is made of metal material (such as gold, silver, aluminum, stainless steel, copper, titanium or alloy). The pipe body 11 has a front section 111 and a rear section 113. A flattened section 112 is provided between the front section 111 and the rear section 113 to connect the front section 111 and the rear section 113. The front section 111 and the rear section 113 each have a constricted end 1111, 1131, which gradually reduce the diameter of the tube from the front section 111 and the rear section 113 toward the flattened section 112 to connect the two sides of the flattened section 112. A tube chamber 114 is defined in the tube body 11, extending from the front section 111 through the flattened section 112 to the rear section 113, and a capillary structure 115 and a working liquid 116 are provided in the tube chamber 114.

该前段111及该后段113的截面例如为圆形且分别具有一管径D1及D3，且该管径D1及D3在本实施系表示为该前段111及该后段113的圆形截面的直径。该管径D1及D3例如但不限制为相同或不同。也即，该前段111的管径D1大于或等于该后段113的管径D3。另外，本实施表示管体11靠近该前段111及该后段113的两末端是封闭端，但不限于此，在其他实施该管体11的两末端是一封闭端及一开放端，该管体腔室114经由该开放端连通一外部腔室(例如均温板或散热板内的腔室)。The cross-sections of the front section 111 and the rear section 113 are, for example, circular and have a tube diameter D1 and D3 respectively, and the tube diameters D1 and D3 are represented in this embodiment as the diameters of the circular cross-sections of the front section 111 and the rear section 113. The tube diameters D1 and D3 are, for example but not limited to, the same or different. That is, the tube diameter D1 of the front section 111 is greater than or equal to the tube diameter D3 of the rear section 113. In addition, this embodiment indicates that the two ends of the tube body 11 close to the front section 111 and the rear section 113 are closed ends, but not limited to this. In other embodiments, the two ends of the tube body 11 are a closed end and an open end, and the tube body chamber 114 is connected to an external chamber (for example, a chamber in a temperature equalizing plate or a heat sink) via the open end.

再者，该压扁段112与该前段111及该后段113为一体形成，该压扁段112是该管体11的一局部区域被单向或双向加压(例如从管体11的上或下加压，或从管体11的上及下加压)形成一截面大致四角形(或至少有二对应侧或面为平面)的构造。该压扁段112的相对两外侧是一上外侧1121及一下外侧1122，且具有一压扁管径D2界定在该上外侧1121及该下外侧1122之间。该压扁管径D2小于该管径D1及D3，也就是该压扁段112比该前段111及该后段113还薄。因此，该前段111及该后段113可凭借该压扁段112浮动调整成一高低位置差的设置。Furthermore, the flattened section 112 is formed integrally with the front section 111 and the rear section 113. The flattened section 112 is a structure in which a local area of the tube body 11 is pressurized in one direction or two directions (for example, from the top or bottom of the tube body 11, or from the top and bottom of the tube body 11) to form a substantially quadrangular cross-section (or at least two corresponding sides or faces are planes). The two opposite outer sides of the flattened section 112 are an upper outer side 1121 and a lower outer side 1122, and a flattened tube diameter D2 is defined between the upper outer side 1121 and the lower outer side 1122. The flattened tube diameter D2 is smaller than the tube diameters D1 and D3, that is, the flattened section 112 is thinner than the front section 111 and the rear section 113. Therefore, the front section 111 and the rear section 113 can be adjusted to a high and low position difference by floating with the flattened section 112.

该夹持件12设置在该管体11的压扁段112，具有上下对称设置的两弹性夹臂122及左右对称设置的两连接臂123，且该两弹性夹臂122及该两连接臂123共同界定一弹性变形空间121。在一些实施该两弹性夹臂122及该两连接臂123由相同或不同材质构成。在本实施较佳选用具有弹性的材质例如塑胶(包含热塑性弹性体(thermoplastic elastomer；简称TPE))或橡胶或硅胶等构成。在其他实施可选用具有弹性的金属，例如镍钛合金或记忆合金等。The clamping member 12 is disposed at the flattened section 112 of the tube body 11, and has two elastic clamping arms 122 symmetrically disposed in the upper and lower parts and two connecting arms 123 symmetrically disposed in the left and right parts, and the two elastic clamping arms 122 and the two connecting arms 123 jointly define an elastic deformation space 121. In some embodiments, the two elastic clamping arms 122 and the two connecting arms 123 are made of the same or different materials. In this embodiment, it is preferred to select an elastic material such as plastic (including thermoplastic elastomer (TPE) or rubber or silicone. In other embodiments, an elastic metal such as nickel-titanium alloy or memory alloy can be selected.

该两弹性夹臂122及该两连接臂123构成一整体结构，该两弹性夹臂122及该两连接臂123相对该压扁段112形成一弧凸状。The two elastic clamping arms 122 and the two connecting arms 123 form an integral structure. The two elastic clamping arms 122 and the two connecting arms 123 form an arc convex shape relative to the flattened section 112 .

该两弹性夹臂122夹持在该压扁段112的相对两外侧，且分别具有两连接端1221、1222，在该两连接端1221、1222之间具一最凸出段1223(也就是弧凸状的最突出处)顶抵接触该压扁段112的上外侧1121及下外侧1122。该两连接臂123分别位于该些弹性夹臂122的两连接端1121、1122，且连接在该两弹性夹臂122之间，用以支持该两弹性夹臂122，且不接触该压扁段112。在本图中表示该两弹性夹臂122对称地横向设置，该两连接臂123对称地垂直设置，且该两弹性夹臂122及该两连接臂123连接处构成四个角。在本实施中，该夹持件12系以射出成形或3D列印等制程一体成型。The two elastic clamping arms 122 are clamped on the two opposite outer sides of the flattened section 112, and respectively have two connecting ends 1221, 1222, and a most protruding section 1223 (i.e., the most protruding part of the arc convex shape) is provided between the two connecting ends 1221, 1222 to abut against the upper outer side 1121 and the lower outer side 1122 of the flattened section 112. The two connecting arms 123 are respectively located at the two connecting ends 1121, 1122 of the elastic clamping arms 122, and are connected between the two elastic clamping arms 122 to support the two elastic clamping arms 122 without contacting the flattened section 112. In this figure, it is shown that the two elastic clamping arms 122 are symmetrically arranged horizontally, the two connecting arms 123 are symmetrically arranged vertically, and the connection points of the two elastic clamping arms 122 and the two connecting arms 123 form four corners. In this embodiment, the clamping member 12 is integrally formed by injection molding or 3D printing.

当夹持件12在套设该压扁段112前，凭借该拉开该两弹性夹臂122及该两连接臂123以扩张该弹性变形空间121，方便通过该前段111或后段113且在该夹持件12移动到该压扁段112后，令该两弹性夹臂122及该两连接臂123回复原始状态，并复原该弹性变形空间121。Before the clamping member 12 is sleeved on the flattened section 112, the two elastic clamping arms 122 and the two connecting arms 123 are pulled apart to expand the elastic deformation space 121, so as to facilitate the passage of the front section 111 or the rear section 113. After the clamping member 12 moves to the flattened section 112, the two elastic clamping arms 122 and the two connecting arms 123 are restored to their original states, and the elastic deformation space 121 is restored.

请继续参考图5A-图5C为本发明夹持件的各种实施示意图。在另一实施该夹持件12的两连接臂123系朝相反该压扁段112形成一弧凸状的设置(如图5A)。在另外一实施，该两弹性夹臂122从弧凸状改为平凸状，该最凸出段1223是平的(如图5B)。在另外一实施，该夹持件12可以为C型或反C型构造，也就是两弹性夹臂122的其中一连接端1221或1222设置一连接臂123连接两弹性夹臂122，在本图表示连接臂123在连接端1222(如图5C)。Please continue to refer to Figures 5A-5C for various schematic diagrams of the clamping member of the present invention. In another embodiment, the two connecting arms 123 of the clamping member 12 are arranged to form an arc-convex shape toward the flattened section 112 (as shown in Figure 5A). In another embodiment, the two elastic clamping arms 122 are changed from arc-convex to flat-convex, and the most protruding section 1223 is flat (as shown in Figure 5B). In another embodiment, the clamping member 12 can be a C-type or reverse C-type structure, that is, a connecting arm 123 is set at one of the connecting ends 1221 or 1222 of the two elastic clamping arms 122 to connect the two elastic clamping arms 122. In this figure, the connecting arm 123 is shown at the connecting end 1222 (as shown in Figure 5C).

请继续参考图6为本发明浮动热管总成的前段111及后段113调整成高低位置差的错位设置的示意图。如图所示，一并参考图3，当该前段111及该后段113凭借该压扁段112浮动调整成一高低位置差的设置时，凭借该夹持件12的套设在该管体11的一压扁段112，且该两弹性夹臂122夹持在该压扁段112的上外侧1121及下外侧1122，得以从管体11的外部加强该压扁段112抵抗因高低落差设置的一桥接力，避免该浮动热管10因高低落差连接产生的桥接力造成结构变形及毛细力效率的降低或失能。Please continue to refer to FIG6 for a schematic diagram of the front section 111 and the rear section 113 of the floating heat pipe assembly of the present invention adjusted to a staggered setting with a height difference. As shown in the figure, with reference to FIG3, when the front section 111 and the rear section 113 are floatingly adjusted to a setting with a height difference by means of the flattened section 112, the clamping member 12 is sleeved on the flattened section 112 of the tube body 11, and the two elastic clamping arms 122 are clamped on the upper outer side 1121 and the lower outer side 1122 of the flattened section 112, so that the flattened section 112 can be strengthened from the outside of the tube body 11 to resist a bridging force caused by the height difference, thereby preventing the floating heat pipe 10 from structural deformation and reduction or incapacity of capillary force efficiency caused by the bridging force generated by the height difference connection.

以上说明对本发明而言只是说明性的，而非限制性的，本领域普通技术人员理解，在不脱离权利要求所限定的精神和范围的情况下，可作出许多修改、变化或等效，但都将落入本发明的保护范围之内。The above description is only illustrative rather than restrictive of the present invention. Those skilled in the art will understand that many modifications, changes or equivalents may be made without departing from the spirit and scope defined by the claims, but all will fall within the scope of protection of the present invention.

Claims (5)

1. A floating heat pipe assembly, comprising:

The pipe body is provided with a front section and a rear section, the front section and the rear section are respectively provided with a pipe diameter, a flattening section is positioned between the front section and the rear section and is provided with a flattening pipe diameter which is smaller than the pipe diameters of the front section and the rear section, a pipe cavity is defined in the pipe body and extends from the front section to the rear section through the flattening section, and a capillary structure and a working liquid are arranged in the pipe cavity;

the clamping piece is arranged on the flattening section of the pipe body and is provided with two elastic clamping arms and two connecting arms which are symmetrically arranged, the two elastic clamping arms are clamped on two opposite outer sides of the flattening section, and the two connecting arms are connected between the two elastic clamping arms;

wherein each elastic clamping arm forms an arc convex shape or a flat convex shape relative to the flattening section, the two connecting arms form an arc convex shape towards the opposite or opposite flattening section, and the arc convex shape does not contact the flattening section.

2. A floating heat pipe assembly as defined in claim 1, wherein: the two elastic clamping arms are arranged up and down symmetrically and respectively provided with two connecting ends and a most protruding section, the most protruding section is positioned between the two connecting ends and is propped against the flattening section of the pipe body, the two connecting arms are respectively positioned at the two connecting ends of the two elastic clamping arms and are arranged in a bilateral symmetry manner, and the two elastic clamping arms and the two connecting arms jointly define an elastic deformation space.

3. A floating heat pipe assembly as defined in claim 1, wherein: the two elastic clamping arms are symmetrically and transversely arranged, the two connecting arms are symmetrically and vertically arranged, and the two elastic clamping arms and the two connecting arms are integrally formed.

4. A floating heat pipe assembly as defined in claim 1, wherein: the opposite outer sides of the flattening section are an upper outer side and a lower outer side, and the front section and the rear section are regulated into a high-low position difference arrangement by virtue of the floating of the flattening section.

5. A floating heat pipe assembly as defined in claim 1, wherein: the front section and the rear section are respectively provided with a necking end, and the necking ends gradually reduce the pipe diameter from the front section and the rear section to the flattening section so as to be connected to two sides of the flattening section.