M434138 五、新型說明: 【新型所屬之技術領域】 [0001] 本創作係有關於一種風扇自體吸震結構,尤指一種可減 少額外設置吸震物件且同時具有提升吸震效果,以及達 到方便組裝與降低組裝成本之風扇自體吸震結構。 【先前技術】 [0002] 隨著資訊科技的進步及發展,電子產品一直朝向高性能 、高頻率、高速度與輕薄化的方向迅速發展,造成電子 Φ 產品的發熱溫度愈來愈高,因而影響產品可靠度及縮短 使用壽命,因此,散熱方式已成為電子產品重要的課題 夕'_ 一 _ 〇 目前利用風扇作為電子產品散熱裝置為常見的散熱結構 設置,因此大部分之電子產品内會使用風扇進行散熱, 讓電子產品能夠維#在一定的操作溫度範圍下運作,然 而,隨著電子晶片散熱需求越來越高,因此風扇散熱風 量需求也相對提高,但能使風扇風量提高最直接的方法 0 就是提高風扇之轉速。 但風扇於運轉時原本就會有震動之情況產生,而於轉速 提升時,其風扇震動之情況也相對的提高,進而影響系 統發生共振而影響結構安全,並也會造成噪音且降低系 統穩定性之問題產生,又尤其是以風扇並聯或串聯增加 風量時,其相互組接產生震動之情況會更加明顯,請參 閱第1A及1B圖所示,所述風扇11在應用時通常會另外組 設至少一吸震片12,以利用所述吸震片12貼附所述風扇 11與電子裝置,進而利用吸震片12來吸收風扇11運轉時 10120538^^^ A0101 第3頁/共22頁 1012017554-0 M434138 產生之震動,且其吸震片12主要是貼附在風扇11框體之 側邊來降低震動之現象,又或風扇11並聯或串聯時(圖 中未表示),其風扇11與風扇11間也可使用有吸震片12 來降低震動之現象。 但一般電子產品内之空間有限,故組裝所述風扇11與防 震片12於電子產品内時,其防震片12相對也有空間上之 限制造成其組裝上較為不便,因此其組裝成本會相對增 加且容易有組裝不良之情況產生,且其可降低震動之效 果也因此有所限制。 以上所述,習知具有下列之缺點: 1. 組裝成本增加; 2. 易產生組裝不良問題; 3. 降低震動效果有限。 緣是,有鑑於上述習用品所衍生的各項缺點,本案之創 作人遂竭其心智,潛心研究加以創新改良,終於成功研 發完成本件「風扇自體吸震結構」案,實為一具功效增 進之創作。 【新型内容】 [0003] 爰此,為有效解決上述之問題,本創作之主要目的在提 供一種能可減少額外設置吸震物件且同時具有提升吸震 效果之風扇自體吸震結構。 本創作之次要目的在提供一種達到方便組裝與降低組裝 成本之風扇自體吸震結構。 為達上述目的,本創作係一種風扇自體吸震結構,所述 風扇包括:一框體、一扇輪及至少一吸震件,該框體具 有一基座及外侧形成有至少一側面,且該框體於基座位 101205^ 單编號 AG1G1 ? 4 頁 / 共 22 胃 1012017554-0 M434138 置處形成有一容置空間,所述扇輪係設置於所述容置空 1内而s玄等吸震件具有彈性且形成於所述側面位置處 向外凸伸,藉此,所述風扇組設於一電子裝置時,可 經由所述框體延伸之吸震件直接吸收所述風扇產生之震 動’可減少額外設置吸震物件且同時具有提升吸震效果 ,並同時達到方便組裝與降低組裝成本之功效。 【實施方式】 [_树明之上述目的及其結構與功能上的特性,將依據所 附圖式之較佳實施例予以說明。 請參閱第2圖所示,係為本創作第一較佳實施例之立體圖 如圖所示,所述風扇2係包含有一框體、一扇輪22及 至> 一吸震件23,所述框體21具有一基座211及周邊外側 形成有至少一側面212,其側面212包括有一第一側面 2121、一第二側面2122、一第三側面2123及一第四側面 2124,且該框體21於基座211位置處形成有一容置空間 2111,而該扇輪22係設置於所述容置空間gill内》 所述吸震件2 3則是成形於所述侧面212位置處且往扇輪22 另一側向外凸伸,且其吸震件23係可以組接方式組接所 述側面212位置處’又或由所述側面212位置處一體延伸 凸出’且其吸震件23係為一彈性元件,可成形於所述第 一側面2121、第二側面2122、第三側面2丨23或第四側面 212 4上’而於本實施例中係以一體延伸凸出所述第一側 面2121與第三側面2123為實施方式,但不因此為限,所 述吸震件2 3也可成形於一側面212上或其中兩側面212上 1012017554-0 請參閱第3圖所示’係為本創作第一較佳實施例之實施示 1〇12〇538卢單編號A01〇l 第5頁/共22頁 M434138 意圖’如圖所示’係將風扇2與一待組設裝置3相互組裝 ,於圖中係以組設所述待組設裝置3之板體31為實施示音 圖,所述風扇2係透過所述第一側面2121及第三側面 2123之吸震件23直接對接於所述板體31上,且於風扇2 運轉相對板體31產生震動時,可經由所述框體21延伸之 吸震件23直接吸收所述風扇2產生之震動,已達到減少需 額外設置吸震物件且同時具有提升吸震效果,並同時達 到方便組裝與降低組裝成本之功效。 請參閱第4A、4B及4C圖所示,係為本發明第二較佳實施 例之立體圖及實施示意圖,其與上一實施例的元件及連 結關係與運作大致相同在此即不贅述相同的元件及元件 符號,惟本較佳實施例的相異處在於:所述側面212上凹 陷有至少一凹槽213,而該吸震件23係形成於所述凹槽 213上且向外凸伸,而於本實施例中,所述凹槽213係形 成於第一側面2121及第三側面2123位置處,而該吸震件 23係成形於凹槽213並由凹槽213位置處且往扇輪22另一 側向外凸伸,藉此,所述風扇2組設所述待組設裝置3之 板體31運作並產生震動時’可經由所述吸震件直接吸 收所述風扇2產生之震動,又或如第4C圖所示,可將其風 扇2與風扇2間並聯組接,同時可經由所述框體以延伸之 吸震件23直接吸收所述兩風扇2相互間產生之震動,已達 到減少需額外設置吸震物件且同時具有提升吸震效果, 並同時達到方便組裝與降低組裝成本之功效。 請參閱第5A、5B圖所示,係為本發明第三較佳實施例之 立體圖、實施示意圖,其與上一實施例的元件及連結關 係與運作大致相同在此即不贅述相同的元件及元件符號 10120538产單编號讎1 第6頁/共22—頁 1012017554-0 M434138 ,惟本較佳實施例的相異處在於:所述吸震件23僅成形 於所述第一側面2丨21位置處且往屬輪22另一側向外凸伸 ,並將所述風扇2與風扇2並聯組接,所述其一之風扇2係 透過所述第—側面2121之吸震件23直接對接於另一風扇2 第三側面2123,且於風扇2組設所述待組設裝置3之板體 31並運轉相對產生震動時,可經由所述框體21延伸之吸 震件23直接吸收所述風扇2產生之震動,已達到減少需額 、. 外設置吸震物件且同時具有提升吸震效果,並同時達到 方便組裝與降低組裝成本之功效。 請參閱第6A圖及6B圖所示’係為本發明第四較佳實施例 之立體圖及實施示意圖,其與上一實施例的元件及連結 關係與運作大致相同在此即不贅述相同的元件及元件符 號,惟本較佳實施例的相異處在於:所述框體21外側形 成有至少-侧面212,其側面212包括有—上側面2125及 一下侧面2126,而其吸震件23可成形於所述上側面2125 及下側面2126上,而於本實施例中係以—體延伸凸出於 馨 所述上側面2125為實施方式,但不因此為限,所述吸震 件23也可成形於一側面212上或其中兩側面212上,其中 所述風扇2可與風扇2串聯組接,而其一之風扇2透過所述 上侧面2125之吸震件23直接對接於另一風扇2之下侧面 2126 ’又如6C圖所示,所述風扇2組設所述待組設裝置3 之板體31並運轉相對產生震動時,可經由所述框體㈣ 伸之吸震件23直接吸收所述風扇2產生之震動,已達到減 少需額外設置吸震物件且同時具有提升吸震效果,並同 時達到方便組裝與降低組裝成本之功效。 综上所述,本創作係一種風扇自體吸震結構,其具有下 1012〇538产單編號A〇101 第7頁/共22頁 1012017554-0 M434138 列之優點: 1. 可減少額外設置吸震物件; 2. 降低組裝成本; 3. 提升吸震效果。 惟以上所述者,僅係本創作之較佳可行之實施例而已, 舉凡利用本創作上述之方法、形狀、構造、裝置所為之 變化,皆應包含於本案之權利範圍内。 【圖式簡單說明】 · [0005] 第1A圖係習知之立體分解示意圖; 第1B圖係習知之立體示意圖; 第2圖係本創作第一較佳實施例之立體圖; 第3圖係本創作第一較佳實施例之實施示意圖; • 第4A圖係本創作第二較佳實施例之立體圖; 第4B圖係本創作第二較佳實施例之實施示意圖一; 第4C圖係本創作第二較佳實施例之實施示意圖二; 第5A圖係本創作第三較佳實施例之立體圖; 第5B圖係本創作第三較佳實施例之實施示意圖; 第6A圖係本創作第四較佳實施例之立體圖; 第6B圖係本創作第四較佳實施例之實施示意圖一; 第6C圖係本創作第四較佳實施例之實施示意圖二。 【主要元件符號說明】 [0006] 風扇 2 框體21 基座211 容置空間2111 10120538#單编號 A〇101 第8頁/共22頁 1012017554-0 M434138M434138 V. New Description: [New Technology Field] [0001] This author is about a fan self-shocking structure, especially one that can reduce the extra shock-absorbing objects and improve the shock absorption effect, and achieve convenient assembly and reduction. The fan self-shocking structure of assembly cost. [Prior Art] [0002] With the advancement and development of information technology, electronic products have been rapidly developing in the direction of high performance, high frequency, high speed and light and thin, resulting in higher and higher heating temperatures of electronic Φ products, thus affecting Product reliability and shortened service life, therefore, the heat dissipation method has become an important issue for electronic products. _ _ _ 〇 Currently using fans as electronic product heat sinks for common heat dissipation structure settings, so most of the electronic products will use fans The heat dissipation allows the electronic product to operate at a certain operating temperature range. However, as the heat dissipation requirement of the electronic chip is higher and higher, the fan airflow demand is relatively increased, but the most direct method for increasing the fan air volume is provided. 0 is to increase the speed of the fan. However, when the fan is running, there will be vibration, and when the speed is increased, the vibration of the fan is relatively increased, which affects the resonance of the system and affects the structural safety, and also causes noise and reduces system stability. The problem arises, especially when the air volume is increased in parallel or in series, the vibrations of the components are more likely to be combined with each other. Referring to Figures 1A and 1B, the fan 11 is usually additionally assembled when applied. At least one shock absorbing sheet 12 is attached to the electronic device by the shock absorbing sheet 12, and the shock absorbing sheet 12 is used to absorb the fan 11 during operation. 10120538^^^ A0101 Page 3 / Total 22 pages 1012017554-0 M434138 The vibration generated, and the shock absorbing sheet 12 is mainly attached to the side of the frame of the fan 11 to reduce the vibration phenomenon, or when the fan 11 is connected in parallel or in series (not shown), the fan 11 and the fan 11 are also The shock absorbing sheet 12 can be used to reduce the vibration. However, the space in the general electronic product is limited. Therefore, when the fan 11 and the anti-vibration piece 12 are assembled in the electronic product, the anti-vibration piece 12 has a spatial limitation, which is inconvenient to assemble, so the assembly cost thereof is relatively increased. It is easy to have a poor assembly condition, and the effect of reducing the vibration is also limited. As mentioned above, the conventional disadvantages are as follows: 1. The assembly cost is increased; 2. The assembly problem is easy to occur; 3. The vibration reduction effect is limited. The reason is that, in view of the shortcomings arising from the above-mentioned products, the creators of this case exhausted their minds, devoted themselves to research and innovation, and finally succeeded in research and development of this "fan self-shocking structure" case, which is actually an improvement. Creation. [New content] [0003] In order to effectively solve the above problems, the main purpose of this creation is to provide a fan self-shocking structure which can reduce the additional shock absorbing objects and at the same time improve the shock absorption effect. The secondary objective of this creation is to provide a fan self-shocking structure that achieves easy assembly and reduced assembly costs. In order to achieve the above object, the present invention is a fan self-shocking structure, the fan includes: a frame body, a fan wheel and at least one shock absorbing member, the frame body has a base and an outer side formed with at least one side surface, and The frame is at the base position 101205^ single number AG1G1 ? 4 pages / total 22 stomach 1012017554-0 M434138 is formed with a accommodating space, the fan wheel system is disposed in the accommodating space 1 and s Xuan et al. Elastically formed at the side position to protrude outwardly, whereby when the fan assembly is disposed on an electronic device, the vibration generated by the fan can be directly absorbed by the shock absorber extending from the frame An additional shock absorbing object is provided with an improved shock absorbing effect, and at the same time, it is easy to assemble and reduce the assembly cost. [Embodiment] The above object of the present invention, as well as its structural and functional characteristics, will be explained in accordance with a preferred embodiment of the accompanying drawings. Referring to FIG. 2, a perspective view of a first preferred embodiment of the present invention is shown. The fan 2 includes a frame, a fan wheel 22, and a shock absorber 23, the frame. The body 21 has a base 211 and a peripheral side formed with at least one side surface 212. The side surface 212 includes a first side surface 2121, a second side surface 2122, a third side surface 2123 and a fourth side surface 2124, and the frame body 21 An accommodating space 2111 is formed at a position of the base 211, and the fan wheel 22 is disposed in the accommodating space gill. The shock absorbing member 23 is formed at the position of the side surface 212 and faces the fan wheel 22 The other side is outwardly convex, and the shock absorbing member 23 can be assembled in a grouping manner at the position of the side surface 212 or extended integrally by the position of the side surface 212 and the shock absorbing member 23 is elastic. The component may be formed on the first side surface 2121, the second side surface 2122, the third side surface 2丨23 or the fourth side surface 212 4′, and in the embodiment, the first side surface 2121. The third side 2123 is an embodiment, but is not limited thereto, and the shock absorbing member 23 can also be formed. 1012017554-0 on one side 212 or on both sides 212. Please refer to FIG. 3 for the implementation of the first preferred embodiment of the present invention. 1〇12〇538单单号A01〇l Page 5/ A total of 22 pages of M434138 are intended to be 'as shown in the figure'. The fan 2 and the assembly device 3 are assembled with each other. In the figure, the plate body 31 of the device to be assembled 3 is assembled to implement a sound map. The fan 2 is directly butted against the plate body 31 through the shock absorbing members 23 of the first side surface 2121 and the third side surface 2123, and can pass through the frame body 21 when the fan 2 is operated to vibrate relative to the plate body 31. The extended shock absorbing member 23 directly absorbs the vibration generated by the fan 2, and has achieved the effect of reducing the need for additional shock absorbing objects and simultaneously improving the shock absorbing effect, and at the same time achieving convenient assembly and reduced assembly cost. 4A, 4B, and 4C are perspective views and implementation diagrams of a second preferred embodiment of the present invention, which are substantially identical to the components and connections of the previous embodiment, and are not described herein. The component and the component symbol are different from the preferred embodiment in that the side surface 212 is recessed with at least one recess 213, and the shock absorbing member 23 is formed on the recess 213 and protrudes outward. In the embodiment, the groove 213 is formed at the first side surface 2121 and the third side surface 2123, and the shock absorbing member 23 is formed on the groove 213 and is located at the position of the groove 213 and toward the fan wheel 22 The other side is outwardly protruded, whereby the fan 2 is configured to operate the board 31 of the device to be assembled 3 and generate vibrations. The vibration generated by the fan 2 can be directly absorbed through the shock absorbing member. Or as shown in FIG. 4C, the fan 2 and the fan 2 can be connected in parallel, and the vibration generated by the two fans 2 can be directly absorbed by the movable shock absorbing member 23 through the frame. Reduce the need to additionally set the shock absorbing object while improving the shock absorption effect, and At the same time, it achieves the convenience of assembly and reduced assembly cost. 5A and 5B are perspective views and implementation diagrams of a third preferred embodiment of the present invention, which are substantially the same as those of the previous embodiment, and the same components are not described herein. The component symbol 10120538 is numbered 雠 1 page 6 / total 22 - page 1012017554-0 M434138 , except that the preferred embodiment is different in that the shock absorbing member 23 is formed only on the first side 2 丨 21 And the fan 2 is connected to the fan 2 in parallel, and the fan 2 is directly connected to the shock absorber 23 of the first side 2121. The third side surface 2123 of the other fan 2 is configured to absorb the fan directly through the shock absorbing member 23 extending from the frame body 21 when the fan body 2 is assembled with the plate body 31 of the device to be assembled 3 and is relatively vibrating. 2 The vibration generated has reached the reduction of the demand, and the external shock absorbing object has the effect of improving the shock absorption, and at the same time, it is convenient to assemble and reduce the assembly cost. Please refer to FIG. 6A and FIG. 6B for a perspective view and a schematic view of a fourth preferred embodiment of the present invention. The components and the connection relationship and operation of the previous embodiment are substantially the same, and the same components are not described herein. And the component symbol, except that the preferred embodiment is different in that: the outer side of the frame body 21 is formed with at least a side surface 212, and the side surface 212 includes an upper side surface 2125 and a lower side surface 2126, and the shock absorbing member 23 can be formed. On the upper side 2125 and the lower side 2126, in the embodiment, the upper side 2125 is extended to the upper side 2125 as an embodiment, but not limited thereto, the shock absorbing member 23 can also be formed. On one side 212 or on both sides 212, wherein the fan 2 can be assembled in series with the fan 2, and one of the fans 2 is directly connected to the other fan 2 through the shock absorbing member 23 of the upper side 2125. The side surface 2126' is further as shown in FIG. 6C. When the fan 2 is assembled with the plate body 31 of the device to be assembled 3 and is relatively vibrating, the fan can be directly absorbed by the shock absorbing member 23 extending from the frame body. 2 The vibration generated has reached the reduction of the demand The shock absorbing object is externally provided and at the same time, the shock absorbing effect is improved, and at the same time, the assembly is simplified and the assembly cost is reduced. In summary, this creation is a fan self-shocking structure, which has the advantages of the following 1012〇538 production order number A〇101 page 7/22 pages 1012017554-0 M434138 column: 1. Can reduce the extra shock absorbing objects 2. Reduce assembly costs; 3. Improve shock absorption. However, the above descriptions are only preferred embodiments of the present invention, and variations of the methods, shapes, structures, and devices described above are intended to be included in the scope of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS [0005] Fig. 1A is a schematic exploded perspective view of the prior art; Fig. 1B is a schematic perspective view of the prior art; Fig. 2 is a perspective view of the first preferred embodiment of the present invention; FIG. 4A is a perspective view of a second preferred embodiment of the present invention; FIG. 4B is a schematic diagram of the second preferred embodiment of the present invention; FIG. 4C is a first embodiment of the present invention 2 is a perspective view of a third preferred embodiment of the present invention; FIG. 5B is a schematic view of the third preferred embodiment of the present invention; FIG. 6B is a schematic diagram of the implementation of the fourth preferred embodiment of the present invention; FIG. 6C is a second schematic diagram of the implementation of the fourth preferred embodiment of the present invention. [Main component symbol description] [0006] Fan 2 Frame 21 Base 211 Housing space 2111 10120538#单号 A〇101 Page 8 of 22 1012017554-0 M434138
側面212 第一側面21 21 第二側面2122 第三側面2123 第四側面212 4 上側面2125 下側面2126 凹槽213 扇輪22 吸震件23 待組設裝置3 板體31Side 212 First side 21 21 Second side 2122 Third side 2123 Fourth side 212 4 Upper side 2125 Lower side 2126 Groove 213 Fan wheel 22 Shock absorber 23 Unit to be assembled 3 Plate body 31
10120538#單編號 A〇101 第9頁/共22頁 1012017554-010120538#单号 A〇101 Page 9 of 22 1012017554-0