201227250 六、發明說明: 【發明所屬之技術領域】 特別係關於一種磁動力散 本發明關於一種散熱模組 熱模組。 【先前技術】 =產品通常在使用時,由於電能轉換的關係,進而 H然而’大部分的電子產品無法承受高溫,因此 =加裝散熱器在電子產品上。傳統的散熱器包括一 坪夕散熱則的金屬熱導體、—個風賴設置 _ 二子來=:熱將被傳—,並透過風以 啤二ΠΓ於加装風扇,於是產生-定程度的 本曰U及搌動。因此,在習4ώ 隹知技術中具有許多不同的靜音 風扇)散熱器被提出,藉由改變散熱器中韓 片勺片數、·曰片之間的間距、籍片的長度、 ^速、熱管的有效傳熱係數、以及熱管㈣ 來增加散熱器產品的散熱效果。 …、里 藉由,良上述變因,將各項變因調整至最佳化的情況 ’散熱器的效能仍無法滿足需求。 一: 熱功效的散熱器即被高度需求。 (、備局散 【發明内容】 放熱器的散熱效果無法達到使用上 由於習知技術中 201227250 的需求’本發明於是 中空氣流動的設計Γ 種错由磁動力以增加散熱模叙 括之;r在提供-種磁動力散熱模組,包 [連桿相對於熱;設:鰭片、及複數個第二鰭 第一鰭片彼此間_帛廣#片设置於熱管,且每- 於該等第-鰭片定蠢s隔’第二·鰭片設置於連桿並延伸 -鰭片往復二也』s隔中。其中第二鰭片可相對於第 本發加空氣流體的擾動。 括:-本體、—抑在於提供一種磁動力散熱模組,包 制單_於本體=連 可相對於本體作二其:控 使磁動力散熱模組的散埶 ^曰加空⑼體的擾動, 的同時,減少灰塵㈣積^加’同時亦可在空氣擾動 六她L L L動,以產生強迫對流,诒估為 =〇來’將可在不變動鰭#面積及1狀件奸1、 的條件下,而獲得更佳的散熱功效。、零件材質 【實施方式】 散熱效果不彰的缺點, 空氣流動的設計於是被 為了改善習知技術中,散熱器 一種藉由磁動力以增加散熱模組ί 提出。 201227250 第卜2圖,第圖分別顯示本發明第1 ==【重不同狀況下的側面示意圖。磁動力散熱模組刚 複數個第、:I1G、—連桿12G、複數個第—鰭片13。、以及 由—封ί二L14〇°熱管】】〇擁有良好的導熱效果,是 、舌動地屬官所構成’具有一壁面111。連桿120可 平行設置。各第—韓片ΐ3〇 m具有長形薄板造型,其中各第一籍片13。皆 第太? 131、及一第一末端132,第-物 ==將第—韓片m的第-連結端⑶與数 5的壁面111連結,使第-籍片m彼此間定義一間 隔⑶地設置於熱管u〇上。各第一韓片13〇之第一連社 知131以及第一末端132間更設置有一磁性元件150。^ 雜70件150外,更包括一緩衝元件⑸包覆磁性元件 5〇。在此貫施例中,磁性元件15〇為 151為一泡棉。 电鐵蜓衝几件 型,別為一熱傳導體,具有長形薄板造 =中各第4片⑽皆具有—第二連結端⑷、及一 :一末端142,第二連結端141肖第二末端⑷分別位於 苐一鰭片130的相對兩側。透過第二連結端⑷ 鰭片刚間隔地設置於連桿12()上,並延伸於由第—^ :::所定義的間隔13”。各第二鰭片 : 141以及第二末端14?問爭执罢女 ^ t 免'、·口細 才而1間更5又置有一磁性元件16〇 性兀件160相對於電磁鐵15〇設置。 " 元件⑽為-永久磁鐵。 在此^例中,磁性 201227250 觸5 ΐ4!注意的是,各第一韓片130的第—末端132未接 至熱管no的壁面m。 )弟一末&⑷亦未接觸 磁動力散熱模組100的運作原理說明如下,由 m可活動地相對於熱管no平行設置,當第1片= j電磁鐵15〇通電後即產生一週期性變化的磁場,以册 動弟二韓片140上的永久磁鐵16〇。如第2圖所示^ 磁鐵⑽受磁場影響下,連桿12〇以及相連於連桿 :第二鑛片J40皆朝-第-既定方向随移動,使第1鰭 心40it::帛151。在永久磁鐵160受一相反的磁場影 曰'連才干120以及相連於連桿12〇上的第二籍片⑽ 月第一既疋方向Ν12移動,回到最初的位置(第j圖)、。 „地上述動作,使每一第二鰭片14〇可相 鄰的弟一鰭片]3 0作;去 么“作住使式地運動,以增加空氣流體的擾 動,使S亥磁動力散熱模組⑽的散熱效能增加。 泡綿⑸在此所扮演的角色是防止電磁鐵】% 磁鐵160間的碰撞。然而,假使適當的設計每一第—缺片 130間的間隔133的距離、以及優良的電路控制^ 久磁鐵_在週期性往復式運動時,不致碰 = ^50,仍具有達到增加空氣對流的功效。在此情況下 省略泡棉的使用。 請爹照第3、4圖’第3、4圖分別顯示本發明第二每 ^例在一種不同狀況下的側面示意圖。磁動力散熱模植加〇 包括-本體2H)、—鰭片支架22〇、_連桿23〇、一 元240、複數個第―鍵g。A 平 弟π片250、及稷數個第二鰭片26〇。本 201227250 體210為一長形平板造型,可連結至電子產品的熱源之 上。本體210上具有一支架211,支架211更具有一延伸 部212及一框架213。鰭片支架220以固定的方式設置於 支架211上。 控制單元240包括裝設架24卜電磁鐵242、主軸243、 彈性機構246。裝設架241具有一 U字形造型,以固定的 方式設置於延伸部212上。電磁鐵242設置在裝設架241 的開口内。主轴243為一細長圓柱,穿設裝設架241及電 磁鐵242,並於兩端分別形成一第一端部244及一第二端 部245,第一端部244及第二端部245所具有的徑向長度 皆大於主軸243的徑向長度。主軸243在裝設架241與第 二端部245間的本體上則被彈性機構246所圍繞。在本實 施例中,彈性機構246為一彈簧,其中彈簧246抵靠於裝 設架241與第二端部245。 連桿230相對於控制單元240的第一端部244設置, 連桿230為一 L形造型,具有一抵靠部231以及一連結部 232。抵靠部231為一磁性物質具有一第一側面233及一第 二側面234,其中第一側面233與第一端部244連結,第 二側面234平行於框架213。連結部232則平行於鰭片支 架220。各第一鰭片250分別為一熱傳導體,具有長形薄 板造型,且分別以焊接的方式設置於連桿230,且彼此間 定義一間隔251。各第二鰭片260分別為一熱傳導體,具 有長形薄板造型,亦以焊接的方式間隔地設置於鰭片支架 220。值得注意的是,每一第二鰭片260以平行的方式分別 延伸於第一鰭片250所定義之間隔251中,且第一鰭片250 201227250 不與.鰭片支架220相連。 磁動力放熱模組2〇〇的^ # 如未產生磁力時,每一第—二原:;如下,在電磁鐵 二鰭片2 6 0之間,如第;:相鄰二片的第 -磁力產生,使主轴243朝:田電磁鐵242作動後, 同時主軸243的第一既定,向Μ前進,在此 進而帶動連結於連桿23〇 230的抵靠部231, 9弟”'、曰片250朝第《 — gf定古a ❶ su多動(第,。由於在彈菁246 ,第= 相鄰的第二鰭片25。 二 提供—恢復力,使主軸243朝一第: 抵靠部231,使連έ士;^部244推動連桿別的 使連結於連桿230的第一鰭片25〇亦朝 既疋方向S2前進。回覆至最初的位置(第3圖)。 請參見第5圖,第5圖為第3圖的變形例,其 ,元件被施予相同標號,且不再加以說明,在以予指明。 ==力,熱模組2〇〇不同的是,磁動力散熱模組聊具 有-控制早το 280以取代磁動力散熱模組2〇〇 元謂。控制單元⑽具有一馬達281、一轉= 黃組283、及—凸輪285。轉轴282連接於馬達28]。 組283設置於抵靠部23】的第二側面234與框架犯之間= 凸輪285設置於轉軸282,且具有-長邊287及-短邊 施,其中凸輪285藉由彈簧組283的彈力得以抵緊連= 2:>0的抵罪部23]。當馬達28]藉由磁動力作動時,帶動 軸282繞-旋轉方向R旋轉,使凸輪285轉動。此時由於 凸輪28;)的長邊287及短邊286週期性地抵緊抵靠部23】、, 201227250 使連結於連桿230的第一鰭片250可往復式地運動於第二 鰭片260間。 由以上敘述可知,本發明之磁動力散熱模組,藉由帶 動鰭片間的空氣流動,以改善習知散熱器散熱功效不佳的 缺點。本發明之實施例各組件間相互之關係及作用原理已 於上述内容作詳盡說明及解釋。惟應注意的是,以上所述 之元件相對位置、數量、形狀等限制,並不侷限於本案圖 示及說明書之内容所示,且任何可帶動鰭片相對移動之機 制,不論是利用馬達、磁力、彈力其中之一或其組合的方 式,皆為本發明所揭示範圍,因此在檢視本案之發明時, 應考量本發明之整體内容而視。 201227250 【圖式簡單說明】 第1圖顯示本發明第一實施例之示意圖; 第2圖顯示本發明第一實施例在第二鰭片受磁場影響 後之示意圖; 第3圖顯示本發明第二實施例之示意圖; 第4圖顯示本發明第二實施例之在第一鰭片移動後之 示意圖;以及 第5圖顯示本發明另一實施例之示意圖。 【主要元件符號說明】 10 0〜磁動力散熱模組 110〜熱管 111, <壁面 120〜連桿 130〜第一鰭片 131〜第一連結端 132- -第一末端 140〜第二鰭片 141, 〜第二連結端 142〜第二末端 150' 〜電磁鐵 151〜泡綿 160 〜永久磁鐵 Nil〜第一既定方向 N12' 〜第二既定方向 200〜磁動力散熱模組 200, 〜磁動力散熱模組 210〜本體 211- ^支架 212〜延伸部 213- 〜框架 220〜鰭片支架 230- 〜連桿 231〜抵靠部 232〜連結部 233〜第一侧面 234〜第二側面 240〜控制單元 241, -裝設架 242〜電磁鐵 201227250 243〜主轴 245〜第二端部 250〜第一鰭片 280〜控制單元 282〜轉軸 285〜凸輪 287〜長邊 S1〜第一既定方向 244〜第一端部 246〜彈簧 260〜第二鰭片 281〜馬達 283〜彈簧組 286〜短邊 R〜旋轉方向 S2〜第二既定方向201227250 VI. Description of the invention: [Technical field to which the invention pertains] In particular, the invention relates to a thermal power module. [Prior Art] = When the product is usually used, due to the relationship of electric energy conversion, H. However, most of the electronic products cannot withstand high temperatures, so the radiator is installed on the electronic product. The traditional radiator includes a metal heat conductor with a ping-down heat dissipation, a wind-proof setting _ two-child =: heat will be transmitted, and a fan is added to the wind through the wind, thus producing a certain degree of曰U and sway. Therefore, there are many different silent fans in the conventional technology. The heat sink is proposed by changing the number of Korean scoops in the heat sink, the spacing between the cymbals, the length of the slab, the speed, and the heat pipe. The effective heat transfer coefficient, as well as the heat pipe (4) to increase the heat dissipation effect of the radiator product. ..., in the case of the above-mentioned changes, to adjust the various factors to the optimization situation. 'The performance of the radiator is still unable to meet the demand. One: The heat-efficient radiator is highly demanded. (、备局散散】Contents of the invention The heat dissipation effect of the radiator cannot be achieved. Due to the demand of 201227250 in the prior art, the design of the present invention is such that the air flow is designed by the magnetic power to increase the heat dissipation model; Providing a magnetic power cooling module, the package [the connecting rod is opposite to the heat; the setting: the fin, and the plurality of second fins, the first fins are arranged in the heat pipe, and each of the The first fin is stupid, and the second fin is disposed on the connecting rod and extends - the fin reciprocating two. The second fin is movable relative to the first air gas. - Ontology, - is to provide a magnetic power cooling module, package a single _ in the body = even with respect to the body to do it: control the magnetic power cooling module of the 埶 埶 曰 曰 曰 曰 9 9 9 At the same time, reduce the dust (four) accumulation ^ plus 'at the same time can also disturb the six LLL movements in the air to generate forced convection, which is estimated to be = 〇 ' 'will be able to change the area of the fin # 1 and 1 , and get better heat dissipation. Parts material [implementation] The shortcomings of the air flow design are then designed to improve the conventional technique in which the heat sink is proposed by magnetic power to increase the heat dissipation module. 201227250 Fig. 2, the figure shows the first invention of the invention == The side view of the situation. The magnetic power cooling module has just a plurality of first,: I1G, - connecting rod 12G, a plurality of first fins 13 , and by - seal two L14 〇 ° heat pipe] 〇 has good thermal conductivity The effect is that the tongue is moved by the official body to have a wall 111. The connecting rods 120 can be arranged in parallel. Each of the first-Korean pieces ΐ3〇m has a long thin plate shape, wherein each of the first pieces 13 is all too? 131, and a first end 132, the first object == connects the first connecting end (3) of the first Korean piece m to the wall surface 111 of the number 5, so that the first piece m is defined at a space (3) between the heat pipes. u. The first Korean film 13 first and the first end 132 are further provided with a magnetic element 150. The other 70 pieces of 150, further including a cushioning element (5) covering the magnetic element 5〇 In this embodiment, the magnetic element 15 is 151 for a foam. Type, not a heat conductor, having a long thin plate made = each of the fourth pieces (10) has a second connecting end (4), and a: one end 142, the second connecting end 141 and the second end (4) are respectively located in the first The opposite sides of the fin 130. The fins are disposed at intervals on the connecting rod 12 () through the second connecting end (4) and extend through the interval 13" defined by the first -> ::: each second fin : 141 and the second end 14? Ask the woman to stop the woman ^ t free ', · mouth fine and 1 more 5 and a magnetic element 16 兀 兀 160 160 relative to the electromagnet 15 。 set. " components (10) It is a permanent magnet. In this example, the magnetic 201227250 touches 5 ΐ 4! Note that the first end 132 of each first Korean piece 130 is not connected to the wall m of the heat pipe no. The operating principle of the first-time & (4) untouched magnetic cooling module 100 is as follows. The m is movable in parallel with the heat pipe no. When the first piece = j electromagnet 15 is energized, a cycle is generated. The magnetic field of the change of sex, to the permanent magnet of the dynasty two Korean tablets 140. As shown in Fig. 2, the magnet (10) is affected by the magnetic field, and the connecting rod 12〇 and the connecting rod: the second ore piece J40 are moved toward the -first-defined direction, so that the first fin center 40it::帛151. The permanent magnet 160 is moved by an opposite magnetic field and the first piece (10) of the second piece (10) connected to the link 12 is moved back to the original position (Fig. j). „The above action, so that each second fin 14〇 can be adjacent to a young fin] 30; go to “move the movement to increase the disturbance of the air fluid, so that the magnetic power of S Hai The heat dissipation performance of the module (10) is increased. The role of the foam (5) here is to prevent collisions between the electromagnets and the magnets 160. However, if the distance between the gaps 133 between each of the first and the missing sheets 130 is appropriately designed, and the excellent circuit control magnets _ during the periodic reciprocating motion, no collision = ^ 50, there is still an increase in air convection. efficacy. In this case, the use of foam is omitted. Referring to Figures 3 and 4, Figures 3 and 4 respectively show side views of a second example of the present invention in a different situation. The magnetic power heat sinking mold includes - body 2H), a fin holder 22, a _ link 23 〇, a unit 240, and a plurality of first-keys g. A flat π piece 250, and a plurality of second fins 26 〇. This 201227250 body 210 is a long flat plate that can be attached to the heat source of electronic products. The body 210 has a bracket 211. The bracket 211 further has an extension portion 212 and a frame 213. The fin holder 220 is disposed on the bracket 211 in a fixed manner. The control unit 240 includes a mounting bracket 24, an electromagnet 242, a main shaft 243, and an elastic mechanism 246. The mounting frame 241 has a U-shaped shape and is fixedly disposed on the extending portion 212. The electromagnet 242 is disposed within the opening of the mounting bracket 241. The main shaft 243 is an elongated cylinder, and the mounting bracket 241 and the electromagnet 242 are disposed, and a first end portion 244 and a second end portion 245 are respectively formed at the two ends, and the first end portion 244 and the second end portion 245 are respectively It has a radial length that is greater than the radial length of the main shaft 243. The main shaft 243 is surrounded by the elastic mechanism 246 on the body between the mounting bracket 241 and the second end portion 245. In the present embodiment, the resilient mechanism 246 is a spring in which the spring 246 abuts the mounting bracket 241 and the second end 245. The link 230 is disposed relative to the first end 244 of the control unit 240. The link 230 has an L-shape and has an abutment portion 231 and a joint portion 232. The abutting portion 231 is a magnetic substance having a first side surface 233 and a second side surface 234, wherein the first side surface 233 is coupled to the first end portion 244, and the second side surface 234 is parallel to the frame 213. The joint 232 is parallel to the fin holder 220. Each of the first fins 250 is a heat conductor, has an elongated thin plate shape, and is respectively disposed on the connecting rod 230 in a welded manner, and defines a space 251 between each other. Each of the second fins 260 is a heat conducting body having an elongated thin plate shape and is also spaced apart from the fin holder 220 by soldering. It should be noted that each of the second fins 260 extends in a parallel manner in the interval 251 defined by the first fins 250, and the first fins 250 201227250 are not connected to the fin holders 220. If the magnetic force is not generated when the magnetic force is not generated, each of the second and second elements is as follows: between the two fins of the electromagnets, such as the first; The magnetic force is generated, and after the main shaft 243 is moved toward the field electromagnet 242, the first main shaft 243 is set to advance toward the crucible, thereby driving the abutting portion 231 connected to the connecting rod 23〇230, 9 brothers, The film 250 toward the first "-gf Dinggu a ❶ su hyperactivity (first, due to the second crest in the phthalocyanine 246, the second = adjacent to the second fin 25. The second provides - restoring force, so that the main shaft 243 toward a first: abutment 231, the squadron 244 pushes the link to move the first fin 25 连结 connected to the link 230 toward the yoke direction S2, and returns to the original position (Fig. 3). Figure 5, Figure 5 is a modification of Figure 3, the components are given the same reference numerals, and will not be described, as indicated. == force, thermal module 2〇〇 is different, magnetic power The heat dissipation module has a control το 280 instead of the magnetic power cooling module. The control unit (10) has a motor 281, a turn = yellow group 283, and - cam 285 The rotating shaft 282 is connected to the motor 28]. The group 283 is disposed between the second side 234 of the abutting portion 23 and the frame. The cam 285 is disposed on the rotating shaft 282, and has a long side 287 and a short side, wherein the cam 285 is biased by the spring force of the spring set 283 to the sinus portion 23 of the joint = 2: > 0. When the motor 28 is actuated by the magnetic force, the shaft 282 is rotated about the rotation direction R to rotate the cam 285. At this time, since the long side 287 and the short side 286 of the cam 28;) periodically abut against the abutting portion 23, 201227250, the first fin 250 coupled to the link 230 can reciprocally move to the second fin. 260. It can be seen from the above that the magnetic power cooling module of the present invention can improve the heat dissipation effect of the conventional heat sink by driving the air flow between the fins. The relationship and the principle of action have been explained and explained in detail above. However, it should be noted that the relative position, quantity, shape and the like of the above-mentioned components are not limited to the contents of the illustration and the description of the present case, and any a mechanism that can move the fins relative to each other, whether it is The use of one of the motor, the magnetic force, and the elastic force, or a combination thereof, is within the scope of the present invention. Therefore, in reviewing the invention of the present invention, the overall content of the present invention should be considered. 201227250 [Simple Description] The figure shows a schematic view of a first embodiment of the present invention; FIG. 2 is a schematic view showing a second embodiment of the present invention after the second fin is affected by a magnetic field; FIG. 3 is a schematic view showing a second embodiment of the present invention; A schematic view of the second embodiment of the present invention after the first fin is moved; and FIG. 5 is a schematic view showing another embodiment of the present invention. [Main component symbol description] 10 0 to magnetic power heat dissipation module 110 to heat pipe 111, <wall surface 120 to link 130 to first fin 131 to first connection end 132 - first end 140 to second fin 141, ~ second connecting end 142 ~ second end 150' ~ electromagnet 151 ~ foam 160 ~ permanent magnet Nil ~ first predetermined direction N12' ~ second predetermined direction 200 ~ magnetic power cooling module 200, ~ magnetic power The heat dissipation module 210 to the main body 211 - the bracket 212 - the extension portion 213 - the frame 220 - the fin holder 230 - the link 231 - the abutment portion 232 - the connection portion 233 - the first side surface 234 - the second side surface 240 - control Unit 241, - mounting bracket 242 - electromagnet 201227250 243 ~ main shaft 245 ~ second end portion 250 ~ first fin 280 ~ control unit 282 ~ shaft 285 ~ cam 287 ~ long side S1 ~ first predetermined direction 244 ~ One end portion 246 to spring 260 to second fin 281 to motor 283 to spring group 286 to short side R to rotation direction S2 to second predetermined direction