TWM518763U - Heat sink fin structure for disc - Google Patents

Heat sink fin structure for disc Download PDF

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Publication number
TWM518763U
TWM518763U TW104217456U TW104217456U TWM518763U TW M518763 U TWM518763 U TW M518763U TW 104217456 U TW104217456 U TW 104217456U TW 104217456 U TW104217456 U TW 104217456U TW M518763 U TWM518763 U TW M518763U
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Taiwan
Prior art keywords
air guiding
heat sink
disk
oblique
guiding blocks
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TW104217456U
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Chinese (zh)
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Zhi-Ying Chen
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Zhi-Ying Chen
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Priority to TW104217456U priority Critical patent/TWM518763U/en
Publication of TWM518763U publication Critical patent/TWM518763U/en

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Description

碟盤散熱片結構 Disc heat sink structure

本創作係與裝設於碟盤上之散熱片有關,更詳而言之,尤指一種增加散熱面積提昇其散熱功效之碟盤散熱片結構。 This creation is related to the heat sink mounted on the disk, and more specifically, a disk heat sink structure that increases the heat dissipation area and enhances the heat dissipation effect.

按,常見的車輛剎車碟盤係固定於一輪轂側面,於碟盤的周側設置有剎車卡鉗,車輛要減速或停止時以剎車卡鉗的來令片夾緊碟盤並限制其旋轉,藉由輪胎與路面之磨擦達到減速或停止的動作。在剎車卡鉗的來令片夾緊旋轉碟盤的瞬間,輪胎旋轉的動能大部份轉換成高溫熱能,而高溫會使碟盤硬化並降低磨擦係數影響車輛的剎車性能,為了改善上述碟盤使用時會產生高溫問題,通常會透過加大碟盤或是來令片的尺寸、以及在碟盤上開設有散熱孔、劃線導風溝等方式解決。惟,加大碟盤或是來令片尺寸的設計,勢必會導致消費者的負擔增加,而在碟盤上開設散熱孔、劃線導風溝的設計,則受限於碟盤的大小無法增加很多孔洞與溝槽,而且又必須顧慮到是否會影響碟盤的結構剛性,因此以增加開設散熱孔、劃線導風溝的設計,對於實際可增加的散熱效果亦實在讓人產生有疑慮。 Press, the common vehicle brake disc is fixed on the side of a hub, and the brake caliper is arranged on the circumferential side of the disc. When the vehicle is to slow down or stop, the brake caliper is used to clamp the disc and limit its rotation. The friction between the tire and the road surface slows down or stops. At the moment when the brake caliper clamps the rotating disc, most of the kinetic energy of the tire rotation is converted into high-temperature heat, and the high temperature causes the disc to harden and reduces the friction coefficient to affect the braking performance of the vehicle, in order to improve the above-mentioned disc. When the disc is used, it will cause high temperature problems. It is usually solved by increasing the size of the disc or by making the size of the disc, and by providing a heat dissipation hole and a scribing guide groove on the disc. However, increasing the size of the disc or the size of the film will inevitably lead to an increase in the burden on the consumer. The design of the vent hole and the scribe groove on the disc is limited by the size of the disc. Adding a lot of holes and grooves, and also having to worry about whether it will affect the structural rigidity of the disk. Therefore, the design of adding a heat dissipation hole and a scribe air guide groove can also cause doubts about the actual heat dissipation effect. .

有鑑於此,本案創作人為了能夠在不增加碟盤的尺寸與消費者負擔的前提下,透過在碟盤上設置結構特殊的複數導風塊,提供增加散熱面積與更佳的散熱效果,利用許多時間投入研究 相關知識,並加以比較各項優劣,且進行相關產品的研究與開發,並歷經多次實驗與測試,而終於推出一種碟盤,藉以符合現今使用需求。 In view of this, in order to be able to provide a special structure of a plurality of air guiding blocks on the disk without adding the size of the disk and the burden on the consumer, the creator of the present invention can provide an increased heat dissipation area and a better heat dissipation effect. Put a lot of time into research Relevant knowledge, and compare the advantages and disadvantages, and carry out research and development of related products, and after many experiments and tests, and finally launched a disc, in order to meet the needs of today's use.

本創作是一種增加散熱面積而具有更佳散熱效果的碟盤散熱片結構,並且可有效導引外界氣流向外發散帶走碟盤上的高溫,而能達加速散熱及降低溫度的功效,以解決前述習知技術的問題,成為一種實用性極佳之創作。 The creation is a dish heat sink structure with increased heat dissipation area and better heat dissipation effect, and can effectively guide the external airflow to diverge and take away the high temperature on the disk, thereby achieving the effect of accelerating heat dissipation and lowering temperature. Solving the problems of the aforementioned prior art has become an extremely practical creation.

藉此,為了達成上述之目的與功效,本創作碟盤散熱片結構,其具有:一本體;複數導風塊,設置於該本體相對之二側面上,並且於同一側面上之複數導風塊呈間隔,複數導風塊且由該本體朝向外側延伸突出;其中,藉由突出之複數導風塊增加散熱之面積與散熱功效。 Therefore, in order to achieve the above object and effect, the disc heat sink structure has: a body; a plurality of air guiding blocks, a plurality of air guiding blocks disposed on opposite sides of the body and on the same side In the interval, the plurality of air guiding blocks extend from the body toward the outer side; wherein the protruding air guiding block increases the heat dissipation area and the heat dissipation effect.

本創作進一步的技術特徵在於,該本體具有相對之一第一側面與一第二側面,複數導風塊分別設於該第一側面與該第二側面上且分別突出於該第一側面與該第二側面。 A further technical feature of the present invention is that the body has a first side and a second side, and the plurality of air guiding blocks are respectively disposed on the first side and the second side and respectively protrude from the first side and the second side The second side.

本創作進一步的技術特徵在於,複數導風塊突出於該第一側面上並對應於該第二側面上形成相對形狀之複數凹穴,複數導風塊突出於該第二側面上並對應於該第一側面上形成相對形狀之複數凹穴。 A further technical feature of the present invention is that a plurality of air guiding blocks protrude from the first side surface and correspond to a plurality of pockets forming a relative shape on the second side surface, and the plurality of air guiding blocks protrude from the second side surface and correspond to the A plurality of recesses of opposite shape are formed on the first side.

本創作進一步的技術特徵在於,其中各導風塊於迎風面各係由一第一斜邊與一第二斜邊呈夾角之方式連接,相對於該第一斜邊與該第二斜邊之另一端設一連接邊,該連接邊呈內凹弧狀,該第一斜邊、該第二斜邊以及連接邊以一頂面連接,各導風塊凸出於該第一側面與該第二側而概呈ㄑ形狀。 A further technical feature of the present invention is that each of the air guiding blocks is connected to each other on the windward side by a first oblique side and a second oblique side, with respect to the first oblique side and the second oblique side The other end is provided with a connecting edge, the connecting edge is concavely curved, the first oblique side, the second oblique side and the connecting side are connected by a top surface, and each air guiding block protrudes from the first side and the first side The two sides are roughly in the shape of a dragonfly.

本創作進一步的技術特徵在於,各導風塊與該第一斜 邊、該第二斜邊以及該連接邊於相連處呈圓弧形。 A further technical feature of the present invention is that each air guiding block and the first oblique The edge, the second beveled edge, and the connecting edge are arcuate at the junction.

本創作進一步的技術特徵在於,該本體上設有至少一凸柱,對應穿過於一碟盤上之孔洞而結合。 A further technical feature of the present invention is that the body is provided with at least one protruding post corresponding to the hole passing through a disk.

綜合上述針對本創作所描述的各項技術特徵之下,其優點在於組裝於碟盤上的複數散熱片係藉由引伸製造技術形成複數導風塊,複數導風塊由該散熱片其本體二側分別向外延伸突出,除了增加複數散熱片自身的散熱面積外,不會有影響碟盤其結構剛性的疑慮產生,更因增加了碟盤與風接觸的面積,進而提昇了散熱效果,而不須增加碟盤的尺寸更不會造成消費者的負擔,藉此解決前述習用碟盤之缺弊。因此本創作可說是一種相當具有實用性及進步性之創作,相當值得產業界來推廣,並公諸於社會大眾。 Combining the above various technical features described in the present invention, the advantage is that the plurality of heat sinks assembled on the disk are formed into a plurality of air guiding blocks by the extension manufacturing technique, and the plurality of air guiding blocks are composed of the heat sink The sides are respectively extended outward and protruded. In addition to increasing the heat dissipation area of the plurality of heat sinks, there is no doubt that the structural rigidity of the disk is affected, and the area of the disk in contact with the wind is increased, thereby improving the heat dissipation effect. There is no need to increase the size of the disc, and it does not cause a burden on the consumer, thereby solving the drawbacks of the aforementioned conventional disc. Therefore, this creation can be said to be a kind of practical and progressive creation, which is worthy of promotion by the industry and publicized to the public.

1‧‧‧本體 1‧‧‧ Ontology

11‧‧‧第一側面 11‧‧‧ first side

12‧‧‧第二側面 12‧‧‧ second side

13‧‧‧凸柱 13‧‧‧Bump

2‧‧‧導風塊 2‧‧‧Air guide block

21‧‧‧第一斜邊 21‧‧‧First bevel

22‧‧‧第二斜邊 22‧‧‧second bevel

23‧‧‧連接邊 23‧‧‧Connecting edge

24‧‧‧頂面 24‧‧‧ top

3‧‧‧凹穴 3‧‧‧ recess

4‧‧‧碟盤 4‧‧‧Disc

41‧‧‧孔洞 41‧‧‧ hole

5‧‧‧剎車卡鉗 5‧‧‧Brake calipers

第一圖係本創作散熱片之立體外觀示意圖。 The first picture is a three-dimensional appearance of the heat sink of the present creation.

第二圖係本創作散熱片另一視角之立體外觀示意圖。 The second figure is a stereoscopic appearance view of another perspective of the created heat sink.

第三圖係本創作散熱片組裝於碟盤上之立體外觀示意圖。 The third figure is a schematic view of the three-dimensional appearance of the heat sink assembled on the disk.

第四圖係本創作散熱片組裝於碟盤上另一視角之立體外觀示意圖。 The fourth figure is a three-dimensional appearance diagram of another perspective view of the heat sink assembled on the disk.

第五圖係第四圖於V-V方向之剖視示意圖。 The fifth figure is a schematic cross-sectional view of the fourth figure in the V-V direction.

第六圖係碟盤組裝剎車卡鉗之平面示意圖。 The sixth figure is a schematic plan view of the disc assembly brake caliper.

為了清楚說明本創作所能達成上述之目的及功效,茲搭配圖示就本創作的實施例加以詳細說明其特徵與功效。請參閱第一圖至第二圖所示,本創作一種碟盤散熱片結構,其具有:一本體1,以散熱材質製成,一般所知可以鋁合金或是碳纖複合材料;複數導風塊2設置 於該本體1相對之二側面上,並且於同一側面上之複數導風塊2呈間隔排列,複數導風塊2且由該本體1朝向外側延伸突出;其中,藉由突出之複數導風塊2增加該本體1散熱之面積,更提供確實增加散熱之目的與功效(前述為本創作主實施例之主要技術特徵,其對應本案申請專利範圍第一項的內容,得以詳知本創作之目的與實施型態,而其餘附屬申請專利範圍所述的技術特徵是為對申請專利範圍第一項內容的詳述或附加技術特徵,而非用以限制申請專利範圍第一項的界定範圍,應知本案申請專利範圍第一項不必要一定包含其餘附屬申請專利範圍所述的技術特徵)。 In order to clarify the purpose and effect of the above-mentioned creations, the features and effects of the present invention will be described in detail with reference to the drawings. Referring to the first to second figures, the present invention provides a disk heat sink structure having: a body 1 made of a heat dissipating material, generally known as an aluminum alloy or a carbon fiber composite material; and a plurality of air guiding blocks; 2 settings The plurality of air guiding blocks 2 on the opposite sides of the body 1 and on the same side are arranged at intervals, and the plurality of air guiding blocks 2 extend from the body 1 toward the outside; wherein the plurality of air guiding blocks are protruded 2 Increasing the area of heat dissipation of the body 1 and providing the purpose and effect of actually increasing heat dissipation (the foregoing is the main technical feature of the main embodiment of the present invention, which corresponds to the content of the first item of the patent application scope of the present application, and can fully understand the purpose of the creation. And the implementation type, and the technical features described in the remaining scope of the patent application are detailed or additional technical features of the first item of the patent application scope, and are not intended to limit the scope of the first item of the patent application scope, It is not necessary to necessarily include the technical features described in the scope of the remaining subsidiary patents.

承上所述,本創作一種碟盤散熱片結構(如第一圖與第二圖所示),其中該本體1具有相對之一第一側面11與一第二側面12,複數導風塊2分別設於該第一側面11與該第二側面12上且分別突出於該第一側面11與該第二側面12。其中,突出於該第一側面11上之複數導風塊2則對應於該第二側面12上形成相對形狀之複數凹穴3,複數導風塊2突出於該第二側面12上並對應於該第一側面11上亦形成有相對形狀之複數凹穴3,透過於該第一側面11向外延伸突出該本體1之複數導風塊2以及於該第二側面12向外延伸突出該本體1之複數導風塊2,達成增加本創作散熱片自身散熱面積之目的,如此,即因增加散熱面積而當然可以加快散熱作用;請配合參閱第三圖與第四圖所示,本創作散熱片安裝組設於一碟盤4上,本說明書實施例係於該本體1第二側面12上設有至少一凸柱13,而該碟盤4上對應設有至少一孔洞41,各該凸柱13穿過對應之孔洞41相接合,當然亦可另外透過鉚釘鉚合之方式達成,請參閱第五圖所示,本創作藉由該本體1上之複數導風塊2增加散熱面積的方式,再將複數本創作散熱片組設於碟盤4上,而在碟盤4之二側面上皆透過複數導風塊2來增加散熱片之散熱面積,本創作增加散熱 片其散熱面積之結構而達加速散熱的方式,較習用以加大整個碟盤面積的技術,更方便、容易且更具進步性。 As described above, the present invention provides a disk heat sink structure (as shown in the first and second figures), wherein the body 1 has a first side 11 and a second side 12, and a plurality of air guiding blocks 2 The first side 11 and the second side 12 are respectively protruded from the first side 11 and the second side 12 respectively. The plurality of air guiding blocks 2 protruding from the first side surface 11 correspond to the plurality of recesses 3 forming opposite shapes on the second side surface 12, and the plurality of air guiding blocks 2 protrude from the second side surface 12 and correspond to A plurality of recesses 3 having opposite shapes are formed on the first side surface 11 , and the plurality of air guiding blocks 2 extending outwardly from the first side surface 11 and extending outwardly from the second side surface 12 protrudes from the body 1 of the plurality of air guiding blocks 2, the purpose of increasing the heat dissipation area of the heat sink of the present invention is achieved, so that the heat dissipation effect can be accelerated by increasing the heat dissipation area; please refer to the third and fourth figures for the heat dissipation. The sheet mounting group is disposed on a disc 4, and the embodiment of the present invention is provided with at least one protrusion 13 on the second side 12 of the body 1, and the disc 4 is correspondingly provided with at least one hole 41, each of the convex portions. The column 13 is joined through the corresponding hole 41, and of course, it can be achieved by riveting together. Referring to the fifth figure, the creation method increases the heat dissipation area by the plurality of air guiding blocks 2 on the body 1. , then set up multiple creation heat sinks on the disc 4 , And in the two sides of the disk 4 are transmitted through a plurality of air guide block 2 to increase the cooling area of the fins, the heat increased creative The structure of the heat dissipating area and the way to accelerate the heat dissipation are more convenient, easier and more progressive than the technique used to increase the area of the entire disc.

再者,如第一圖與第二圖所示,各該導風塊2各係具有一第一斜邊21、一第二斜邊22以及一連接邊23,各該導風塊2於迎風面各係由該第一斜邊21與第二斜邊22呈夾角之方式連接,相對於該第一斜邊21與該第二斜邊22之另一端設一連接邊23,該連接邊23呈內凹弧狀,該第一斜邊21、該第二斜邊22以及連接邊23以一頂面24連接,各該頂面24且成為各該凹穴3之穴底,各該導風塊2凸出於該第一側面11與該第二側面12而概呈ㄑ形狀,各該導風塊2之該第一斜邊21、第二斜邊22與該連接邊23於相連接處呈圓弧形,請配合參閱第三圖與第四圖所示,當車輛要減速而以剎車卡鉗5夾緊跟著車輪(圖未示出)旋轉之碟盤4並限制其旋轉時,因摩擦所產生的高溫熱能除了藉由複數導風塊2予以揮發消散外,更可以透過外來的風(圖中以→表示)於吹向本創作之複數導風塊2時,順著呈ㄑ形狀之設計有效導引外界氣流順著該第一斜邊21與該第二斜邊22之引導往二邊、往外發散,達成降低碟盤溫度的功效。 Furthermore, as shown in the first figure and the second figure, each of the air guiding blocks 2 has a first oblique side 21, a second oblique side 22 and a connecting side 23, and each of the air guiding blocks 2 is in the windward direction. The first beveled edge 21 is connected to the second beveled edge 22 at an angle, and a connecting edge 23 is formed on the other end of the first beveled edge 21 and the second beveled edge 22, the connecting edge 23 In a concave arc shape, the first oblique side 21, the second oblique side 22 and the connecting side 23 are connected by a top surface 24, and each of the top surfaces 24 is a bottom of each of the recesses 3, and each of the guiding winds The block 2 is convexly shaped from the first side 11 and the second side 12, and the first bevel 21 and the second bevel 22 of the air guiding block 2 are connected to the connecting edge 23 In the shape of a circular arc, please refer to the third and fourth figures. When the vehicle is to be decelerated and the brake caliper 5 is used to clamp the disc 4 which is rotated by the wheel (not shown) and the rotation thereof is restricted, the friction is caused. The generated high-temperature heat energy can be dissipated by the plurality of air guiding blocks 2, and can be transmitted through the external wind (indicated by → in the figure) when blowing to the plurality of air guiding blocks 2 of the present creation. Shape design Effectively guide the outside airflow along a first oblique side 21 and the hypotenuse 22 of the second guide toward the two sides, diverging outwardly, the temperature reached to reduce the effect of the disk.

如此一來,藉由該散熱片其本體1之第一側面11與第二側面12分別向外延伸突出之複數導風塊2,除了增加複數散熱片自身的散熱面積外,不會有影響碟盤其結構剛性的疑慮產生,更因增加了與外界氣流接觸的面積而確實能提昇散熱效果,且本創作更進一步藉由複數導風塊2特殊的結構設計,具有引導外界氣流發散以帶走本創作散熱片上的高溫熱能,因本創作碟盤散熱片結構,比起習知技術來說更具符合大眾使用之實用性以及進步性,由上所述者僅為用以解釋本創作之較佳實施例,並非企圖據以對本創作做任何形式上之限制,是以,凡有在相同之創作精神下所做有關本創作之任何修飾或變更者,為 其他可據以實施之型態且具有相同效果者,皆仍應包括在本創作意圖保護之範疇內。 In this way, the plurality of air guiding blocks 2 extending outwardly from the first side 11 and the second side 12 of the body 1 respectively, in addition to increasing the heat dissipation area of the plurality of heat sinks, do not affect the dish. The doubt about the structural rigidity of the disk, and the increase of the area of contact with the external airflow can actually improve the heat dissipation effect, and the creation further has a special structural design of the plurality of air guiding blocks 2, which guides the external airflow to take away The high-temperature heat energy on the heat sink of the present invention is more suitable for the practicality and progress of the public than the conventional technology because of the structure of the heat sink of the present disc, and the above is only for explaining the creation. The preferred embodiment is not intended to impose any form of restriction on the creation of the creation, that is, any modification or alteration of the creation made under the same creative spirit is Other types that can be implemented and have the same effect should still be included in the scope of this creative intent.

綜上所述,本創作「碟盤散熱片結構」,其實用性及成本效益上,確實是完全符合產業上發展所需,且所揭露之結構創作亦是具有前所未有的創新構造,所以其具有「新穎性」應無疑慮,又本創作可較習用之結構更具功效之增進,因此亦具有「進步性」,其完全符合我國專利法有關新型專利之申請要件的規定,乃依法提起專利申請,並敬請 鈞局早日審查,並給予肯定。 In summary, the "disc heat sink structure" of this creation is indeed in line with the development of the industry in terms of practicality and cost-effectiveness, and the disclosed structural creation is also an unprecedented innovative structure, so it has "Newty" should be taken care of, and this creation can be more effective than the conventional structure. Therefore, it is also "progressive". It fully complies with the requirements of the application requirements for new patents in China's Patent Law. And please ask the bureau to review it early and give it affirmation.

1‧‧‧本體 1‧‧‧ Ontology

11‧‧‧第一側面 11‧‧‧ first side

12‧‧‧第二側面 12‧‧‧ second side

13‧‧‧凸柱 13‧‧‧Bump

2‧‧‧導風塊 2‧‧‧Air guide block

21‧‧‧第一斜邊 21‧‧‧First bevel

22‧‧‧第二斜邊 22‧‧‧second bevel

23‧‧‧連接邊 23‧‧‧Connecting edge

24‧‧‧頂面 24‧‧‧ top

3‧‧‧凹穴 3‧‧‧ recess

Claims (6)

一種碟盤散熱片結構,其用以組裝於一碟盤上,其具有:一本體;複數導風塊,設置於該本體相對之二側面上,並且於同一側面上之複數導風塊呈間隔,複數導風塊且由該本體朝向外側延伸突出;其中,藉由突出之複數導風塊增加散熱之面積與散熱功效。 A disk heat sink structure for assembling on a disk, having: a body; a plurality of air guiding blocks disposed on opposite sides of the body, and the plurality of air guiding blocks on the same side are spaced apart And a plurality of air guiding blocks extending from the body toward the outer side; wherein the protruding air guiding block increases the heat dissipation area and the heat dissipation effect. 依據申請專利範圍第1項所述之碟盤散熱片結構,其中該本體具有相對之一第一側面與一第二側面,複數導風塊分別設於該第一側面與該第二側面上且分別突出於該第一側面與該第二側面。 The disk heat sink structure of claim 1, wherein the body has a first side and a second side, and the plurality of air guiding blocks are respectively disposed on the first side and the second side. The first side and the second side are respectively protruded. 依據申請專利範圍第2項所述之碟盤散熱片結構,其中複數導風塊突出於該第一側面上並對應於該第二側面上形成相對形狀之複數凹穴,複數導風塊突出於該第二側面上並對應於該第一側面上形成相對形狀之複數凹穴。 The disk heat sink structure according to claim 2, wherein the plurality of air guiding blocks protrude from the first side surface and correspond to the plurality of pockets forming a relative shape on the second side surface, and the plurality of air guiding blocks protrude from The second side surface corresponds to a plurality of pockets forming opposite shapes on the first side surface. 依據申請專利範圍第3項所述之碟盤散熱片結構,其中各導風塊於迎風面各係由一第一斜邊與一第二斜邊呈夾角之方式連接,相對於該第一斜邊與該第二斜邊之另一端設一連接邊,該連接邊呈內凹弧狀,該第一斜邊、該第二斜邊以及連接邊以一頂面連接,各導風塊凸出於該第一側面與該第二側面而概呈ㄑ形狀。 According to the disk heat sink structure of claim 3, wherein each air guiding block is connected to the windward side by a first oblique side and a second oblique side, with respect to the first oblique a connecting edge is disposed on the other end of the second oblique side, the connecting side is concavely curved, and the first oblique side, the second oblique side and the connecting side are connected by a top surface, and each air guiding block protrudes The first side surface and the second side surface are substantially in a meander shape. 依據申請專利範圍第4項所述之碟盤散熱片結構,各導風塊與該第一斜邊、該第二斜邊以及該連接邊於相連處呈圓弧形。 According to the disc heat sink structure of claim 4, each air guiding block has a circular arc shape with the first oblique side, the second oblique side and the connecting side. 依據申請專利範圍第1項至第5項中任一項所述之碟盤散熱片結構,該本體上設有至少一凸柱,對應穿過於一碟盤上之孔洞而結合。 The disk heat sink structure according to any one of claims 1 to 5, wherein the body is provided with at least one protrusion corresponding to a hole passing through a disk.
TW104217456U 2015-10-30 2015-10-30 Heat sink fin structure for disc TWM518763U (en)

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