M397117 五、新型說明: 【新型所屬之技術領域】 本創作關於一_°八裝置,尤指一種具有吸振功能之勢八褒置 【先前技術】 日刖 吊見用來降低·裝置於運__導至其他 私錢之财聽構上攸錄科,_吸收㈣ 、在運作時所產生之振動’而為了避免螺絲在_過程中擠壓吸 、片變形而影響其吸振效能的情況發生,在此方法中,螺絲在結 ,上錄需要增鋪殊的設計,其相關描麟參閱第1 _,其為先 前技術之-,八裝置10之爆炸示意圖,由第i圖可知,氣裝置 10包合有一刺0八本體^ (於帛i圖中僅以部份簡示之)、一固定螺 絲Η、一吸振塾片16,以及一夾持片18 ;制〇八本體12具有一=定 孔結構20 ’吸振塾片16係設置於固定孔結構20上,固定螺絲14 具有-螺絲頭部22 —抵接部24 (抵接部24之厚度係與吸振塾片 ^之厚度相同)以及-螺紋部26’而夾持片18則是用來將固定螺 絲14固定於吸振墊片16上,如此即可在將固定螺絲14與吸振墊片 16之組合送至喇11 八裝置組裝廠以與喇《八本體12之固定孔結構2〇進 行組裝之過程中,防止蚊螺絲14自吸振墊片16上脫細情況發 生。 11 / =褒置10與一承載基板28之組裳方面固定螺絲14係用 綠穿過吸_ 16後利用螺紋部26以與承載基板28進行鎖固, 精二經由固定孔結構2G以將•本體12鎖固於承載基板%上進 而凡成剩Λ裝置10之固^,而當固定螺絲14利用螺紋部26向下鎖 固至使抵料24抵錄減絲28德置時,雜部%與承載基 =28之_抵靠即可阻止固定螺賴相對於承載基㈣的向下移 =,從而避免固定螺絲14之螺絲頭部22進―步地擠壓到吸振塾片 16而導致吸振墊片16變形的情況發生。 d由上述可知’用來與固定孔結構進行鎖固的固定螺絲必須 具=抵接部之結構設計’以防止上述吸振塾片於鎖固過財遭受到 固定螺絲之纏㈣韻贱之航發生,減-來,不僅合 „加勢八裝置在組裝上的^件成本,同時也會因其對螺‘ 寺殊結構需求而增加吸振結構在獅麵顧上舰制,從而造成 喇叭裴置在組裝上的諸多不便。 【新型内容】 本創作提供-種具有錄魏之,八裝置,其包含有—制。八本 體其具有一固定孔結構;一固定螺絲,其具有一螺絲頭部以及一 累、文。P,忒固疋螺絲用來穿過該固定孔結構以將該喇叭本體鎖固於 承载基板上,以及一吸振結構,其係設置於該喇叭本體對應該固 M397117 定孔結構之位置上且纽於朗定獅上,触振結構包含有一吸 振塾片,其係設置於該固定孔結構内且套設於該螺紋部上,該吸振 墊片用來吸收從該喇队本體所傳來之振動;以及一中空套環,其係 設置於該吸振墊片與該螺紋部之間,該衫套環用來撐抵住該螺絲 頭部以及該承餘板,藉錄舰固定螺_對於該吸振結構之移 動。 【實施方式】 凊參閱第2圖,其為根據本創作之一較佳實施例所提出之κ 裝置50之部分不意圖,由第2圖可知"刺n八裝置%包含有一物八 本體52 (於第2圖中僅顯示部份)、一固定螺絲%,以及一吸振結 構56 ; °刺°八本體52為剩°八褒置50上除吸振及鎖固相關元件之外的 其他組件,如音辟,其_設計係常見於先·術巾,故於此不 料述,另外,由第2圖可知"刺0八本體52具有一固定孔結構58, 其中固定孔結構58係可採用常見與螺絲配合之孔洞結構設計;固定 螺絲54係用來穿過固定孔結構%以將价八本體%鎖固於一承載基 板60上(如第2圖所示),而吸振結構56則是設置於喇叭本體52 對應固定孔結構58之位置上且套設於固定獅54上。 於此針對固定螺絲54以及吸振結構56之結構設計進行描述。請 參閱第3®以及第4圖’第3圖為第2圖所示之蚊螺絲54之放大 不意圖’第4圖為第2圖所示之吸振結構56之爆炸示意圖;由第3 M397117 圖以及第4圖可知,固定螺絲54具有一螺絲頭部以以及一螺紋部 64,吸振結構56包含有一吸振墊片66以及一中空套環68 ;吸振墊 片66係設置於固定孔結構58内且套設於螺紋部64上,吸振墊片 66係由吸振緩衝材質所組成,如橡膠等,藉以用來吸收從喇叭本體 52所傳來之振動’從而產生吸振功效。 另外,如第4圖所示,吸振墊片66之外緣以及表面係分別具有 一頸部結構70以及複數個減振肋72 (於此實施例中採用16個), 頸。卩結構70係用來卡合於固定孔結構58之孔洞内緣,以使吸振墊 片66固定於固定孔結構58上’而減振肋72係以放射狀排列之方式 刀別形成於吸振墊片66之上下表面上,從而達到減振的功效;中空 套環68係設置於吸振墊片66與螺紋部64之間,中空套環68用來 撐抵住螺絲頭部62以及承載基板6〇,藉以限制固定螺絲54相對於 吸振結構56之移動,在此實施例中,中空套環68係較佳地由塑膠 或金屬等堅硬材質所組成;除此之外,如第4圖所示,吸振塾片% ^内緣具有至少一定位肋74 (於此實施例中採用8個),而中空套 & 68之外緣上係形成有相對應之定位凹槽76 ,定位肋74用來卡合 於相對應之定位凹槽76内,藉以將中空套環68固定於吸振墊片6〇6 内。 以下係針對咖八裝置之鎖固進行詳細之朗,制時參閱第 2圖、第3圖以及第4圖;如欲將勢八裝置5〇鎖固於承载基板6〇 上,首先須將中空套環68套接於吸振塾片66内,由上述可知,透 M397117 過形成於中空套環68之外緣上之定位凹槽76與吸振塾片%之定位 肋74之間的卡合,中空套環68係可穩固地固定於吸振塾片的内; 在二成中空套環68與吸振墊片66之組裝後其係可利用如第4圖 示之吸振墊片66上之頸部結構7〇卡合失持住於固定孔結構% ^孔洞内·緣,以將裝設有中空套環68的吸振墊片66固定於固定孔 結構58内;接著可使用固定螺絲54穿财空套環68並使用工具(如 立累、4起子等)開始轉動固定獅54,以侧固定獅%上之螺紋 1564而與承載基板60進行鎖固,直到中空套環68同時抵靠住固定 螺絲54之螺絲頭部62以及承載基板6〇為止,如此即可完成將外八 體2 口疋於承載基板上之組裝,此時,由於中空套環沾係套 接在螺紋部64與吸振制66之間,因此,吸振結構%不僅可利用 中空套環68與螺絲頭部62以及械基板㈣相互抵細阻止固定 螺絲54相對吸振塾片66繼續向下鎖固,從而避免吸振塾片防因受 到固定螺絲54之螺絲頭部62之擠壓而變形的情況發生,同時亦可 利用中空套環Μ設置於吸振則66以及螺紋部Μ之咖配置以保 護吸振墊>;66於轉動㈣螺絲54時不被螺紋部私所刮傷。、 值得注意的是,上述頸部結構7〇、減振肋72,以及定位肋% 與疋位凹槽76之卡合配置均可為—可省略之設計,從而達到簡化吸 振結構56之結構設計的目的,舉例來說,在省侧部結構%之設 計下,吸振塾片66射改以—般常見之連接固定方法設置於固定孔 結構58上,如黏膠貼合等;而在省略定位肋%與定位凹槽%之設 計下’中空套環68係可改以與吸振塾片66緊配合之方式固定於吸 M397117 振墊片66内’另外’吸振結構56與固定螺絲54以及固定孔結構 58之配置數1亦可不限於一組,其亦可根據喇叭裝置犯之實際防 振品求而增設於喇0八本體52之其他位置上。 除此之外,吸振結構之設計係可不限於上述實施例,也就是只要 疋私用吸振塾片與中空套環之配合設計以達到保護吸振墊片之功效 的《又汁,均屬本創作之保護範圍,舉例來說,請參閱第5圖其為 _根據本創作另-較佳實施例所提出之一吸振結構1〇〇之爆炸示意 圖’由第5圖可知,吸振結構100包含有-吸振替片102以及-中 二套% 104,吸振墊# 1()2之表面上係形成有一環形槽結構其 係用來衰減從勢八本體52所傳來之振動,同樣地,吸振塾片ι〇2 係由吸振緩衝材質所組成,如橡膠等,而巾空套環刚係較佳地由 塑膠或金屬等堅硬材質所組成;除此之外,吸振塾片1〇2之内緣係 形成有-突出卡合結構108,中空套環1〇4之外緣上係形成有一卡 合7110,突出卡合結構用來與卡合槽11〇卡合,藉以將中空 套環⑽固定於吸振墊片102内’其組裝方式係可如第6圖所示, 其中第6圖係為第5圖所示之中空純1〇4言免置於吸振塾片⑴2内 之組合示意圖。 至於吸振結構100與固定螺絲54以及固定孔結構別之裝設,其 係可參照上述實施例所提及之組裝流程,簡言之,在將裝設有中空、 套環K)4的吸振墊片102 (如第6圖所示)固定於固定孔結構^ 之後’只要再彻固定_ 54 ±之職部Μ與承縣板6g進行鎖 M397117 :載=空Γ104同時抵靠住固定螺絲54之螺絲頭部_ 上==如此即可完成㈣林體52⑽於承载基㈣ 之碰,同理,由於中空套環104係套接在螺紋部Μ與吸 1〇2之間’因此’吸振結構100不僅可利用中空套環购與螺絲頭 部62以及承餘板6〇 _互抵靠峨姻定螺絲54相對吸振塾片 1〇2繼續向下鎖固,從而避免吸振墊片1〇2因受到固定螺絲Μ之螺 絲頭部62之擠壓而變形的情況發生,同時亦可利財空套产刚、 設置於吸振塾請以及螺紋部64之間的配置以保護吸振塾請 於轉動固定螺絲54時不被螺紋部64所刮傷。 值得一提的是’由第4圖與第5圖之輯可知,不同於吸振塾片 66採用結構較厚之_體設計以產生吸振效果,吸缝片⑽係採 用方形薄片結構設計並利用環形槽結構1〇6之設計來產生減振效 果,換句話說’透過厚薄不同的墊片結構設計,本創作所提供之喇 ⑽置係可具有不_陳效能,從而滿足其在不同朗環境 防振需求。 >除此之外,吸振結構%與吸振結構卿中所提及之結構設計係 可交互應用之’如減獅之設計、定位_與定⑽之卡合配置、 環形槽結構之設計、突出卡合結構與卡合槽之卡合配置等,從而增 加吸振結構在結構變化上_性;舉例來說,吸振墊片&之表面上 也可增設環形槽結構106,而吸振墊片1G2則是可以增設減振肋A 藉以達到強化防振效能的目的。 M397117 相較於先前技術之勢八裝置需使用具^ =供綠物期物咖獅 梅瞻恤数_繼爾能之軌 來’透過由塑膠或金屬等堅硬材質所組成之令空鱗 以取代具祕料之特殊獅财式,本創料财降 置 的:且;成本,同時也會因免除了其對螺絲的特殊結構需求而適=M397117 V. New description: [New technical field] This creation is about a _° eight device, especially a kind of absorbing device with the function of absorbing vibration. [Prior Art] 刖 刖 用来 用来 用来 用来 用来 用来 用来 装置 装置 装置Leading to other private money, the structure of the book, _ absorption (four), the vibration generated during operation' and in order to avoid the screw in the process of squeezing suction, sheet deformation affects its vibration absorption performance, in In this method, the screw is in the knot, and the design needs to be increased. For the related description, refer to the first _, which is the prior art - the explosion diagram of the eight device 10, as shown in the figure i, the gas device 10 package There is a thorn 0 8 body ^ (only partially shown in the figure), a fixing screw Η, a vibration absorbing piece 16, and a clamping piece 18; the body 8 has a fixed hole The structure 20' is provided on the fixing hole structure 20, and the fixing screw 14 has a screw head 22 - an abutting portion 24 (the thickness of the abutting portion 24 is the same as the thickness of the vibration absorbing piece ^) and - the thread The portion 26' and the clamping piece 18 are used to fix the fixing screw 14 to the vibration absorbing pad On the sheet 16, in this way, the combination of the fixing screw 14 and the vibration absorbing pad 16 can be sent to the La 11 device assembly factory to assemble the fixing hole structure 2 of the body 8 to prevent the mosquito screw 14 from being assembled. The self-absorption of the absorbing pad 16 occurs. 11 / = the set of 10 and a carrier substrate 28 of the set of screws 14 with green through the suction _ 16 after the use of the threaded portion 26 to lock with the carrier substrate 28, the second through the fixed hole structure 2G to The body 12 is locked on the carrier substrate %, and the remaining device 10 is fixed. When the fixing screw 14 is locked downward by the thread portion 26, the offset 24 is offset by the offset wire 28, and the miscellaneous portion is %. Abutting with the carrier base = 28 can prevent the downward movement of the fixing screw relative to the carrier base (4), thereby preventing the screw head 22 of the fixing screw 14 from being squeezed further into the vibration absorbing blade 16 to cause vibration absorption. The deformation of the spacer 16 occurs. d It can be seen from the above that 'the fixing screw used for locking with the fixing hole structure must have the structure design of the abutting portion' to prevent the above-mentioned vibration absorbing piece from being locked by the fixing screw (four) rhyme. , minus - to come, not only to meet the cost of the assembly of the device, but also to increase the vibration-absorbing structure in the lion face due to its demand for the structure of the snail's temple, thus causing the horn to be assembled The new inconvenience. [New content] This creation provides a kind of recording, Wei, eight devices, including the system. The eight body has a fixed hole structure; a fixing screw, which has a screw head and a tired , P, 忒 疋 screw is used to pass through the fixing hole structure to lock the horn body on the carrier substrate, and a vibration absorbing structure is disposed at the position of the horn body corresponding to the fixed M397117 hole structure The oscillating structure includes a vibration absorbing slab which is disposed in the fixing hole structure and is sleeved on the threaded portion, and the absorbing pad is used for absorbing the body from the racquet body Vibration And a hollow collar disposed between the vibration absorbing pad and the threaded portion, the collar is used to support the screw head and the bearing plate, and the ship fixing screw is used for the vibration absorbing structure [Embodiment] Referring to FIG. 2, which is a partial schematic of a κ device 50 according to a preferred embodiment of the present invention, it can be seen from FIG. 2 that the puncturing device contains one object. Eight bodies 52 (only part of which is shown in Fig. 2), a set screw %, and a vibration absorbing structure 56; ° ° ° body 52 is left in addition to the occupant 50 on the vibration absorbing and locking related components Other components, such as sound diagnosing, are commonly used in the first, and are not described herein. In addition, as shown in FIG. 2, the body 52 has a fixing hole structure 58, wherein the fixing hole structure 58 The hole structure design of the common screw fit can be adopted; the fixing screw 54 is used to pass through the fixing hole structure % to lock the valence body % on a carrier substrate 60 (as shown in FIG. 2), and the vibration absorbing structure 56 is disposed at a position corresponding to the fixing hole structure 58 of the horn body 52. The sleeve is mounted on the fixed lion 54. The structural design of the fixing screw 54 and the vibration absorbing structure 56 will be described here. Please refer to the 3® and 4th drawings, and the 3rd figure is the magnification of the mosquito screw 54 shown in Fig. 2. 4 is a schematic exploded view of the vibration absorbing structure 56 shown in FIG. 2; as shown in the 3rd M397117 and FIG. 4, the fixing screw 54 has a screw head and a threaded portion 64, and the vibration absorbing structure 56 includes The vibration absorbing pad 66 and the hollow collar 68 are disposed in the fixing hole structure 58 and sleeved on the threaded portion 64. The vibration absorbing pad 66 is composed of a vibration absorbing material such as rubber, etc. To absorb the vibration transmitted from the horn body 52, thereby generating a vibration absorbing effect. In addition, as shown in FIG. 4, the outer edge of the vibration absorbing pad 66 and the surface system respectively have a neck structure 70 and a plurality of damper ribs 72. (16 in this embodiment), neck. The 卩 structure 70 is used to engage the inner edge of the hole of the fixing hole structure 58 so that the vibration absorbing pad 66 is fixed on the fixing hole structure 58 and the damper rib 72 is radially arranged to form the absorbing pad. The upper surface of the sheet 66 is used to achieve the effect of damping; the hollow collar 68 is disposed between the vibration absorbing pad 66 and the threaded portion 64, and the hollow collar 68 is used to support the screw head 62 and the carrier substrate 6 In order to limit the movement of the fixing screw 54 relative to the vibration absorbing structure 56, in this embodiment, the hollow collar 68 is preferably made of a hard material such as plastic or metal; in addition, as shown in FIG. 4, The absorbing cymbal % ^ inner edge has at least one positioning rib 74 (eight in this embodiment), and the outer edge of the hollow sleeve & 68 is formed with a corresponding positioning groove 76 for positioning ribs 74 The hollow collar 68 is fixed in the vibration absorbing spacer 6〇6 by being engaged in the corresponding positioning groove 76. The following is a detailed description of the locking of the coffee eight device. Refer to Figure 2, Figure 3, and Figure 4 for the system. If you want to lock the device 8 on the carrier substrate, you must first hollow it. The collar 68 is sleeved in the vibration absorbing piece 66. As can be seen from the above, the M397117 is engaged with the positioning groove 76 formed on the outer edge of the hollow collar 68 and the positioning rib 74 of the vibration absorbing piece%, hollow. The collar 68 can be firmly fixed in the vibration absorbing sheet; after assembly of the second hollow collar 68 and the vibration absorbing gasket 66, the neck structure 7 on the vibration absorbing pad 66 as shown in Fig. 4 can be utilized. The 〇 card is held in the fixing hole structure %^ hole inner edge, to fix the vibration absorbing gasket 66 provided with the hollow collar 68 in the fixing hole structure 58; then the fixing screw 54 can be used to wear the financial collar 68 and use a tool (such as a vertical load, a 4-plier, etc.) to start rotating the fixed lion 54 to lock the carrier substrate 60 with the thread 1564 on the side of the lion, until the hollow collar 68 simultaneously abuts the fixing screw 54 The screw head 62 and the carrier substrate 6〇 are completed, so that the outer eight body 2 can be placed on the bearing base. In the assembly, at this time, since the hollow collar is sleeved between the threaded portion 64 and the vibration absorbing mechanism 66, the vibration absorbing structure% can be used not only by the hollow collar 68 but also with the screw head 62 and the mechanical substrate (4). The fixing screw 54 is prevented from continuing to be locked downward relative to the vibration absorbing flap 66, so as to prevent the vibration absorbing piece from being deformed by the pressing of the screw head 62 of the fixing screw 54, and the hollow sleeve Μ can also be used to The vibration absorbing 66 and the threaded portion are arranged to protect the vibration absorbing pad > 66 from being scratched by the threaded portion when the (four) screw 54 is rotated. It should be noted that the above-mentioned neck structure 7〇, the damping rib 72, and the engagement arrangement of the positioning rib % and the clamping groove 76 can be omitted, so as to simplify the structural design of the vibration absorbing structure 56. For the purpose, for example, in the design of the side structure of the province, the vibration-absorbing cymbal 66 is modified by a commonly-used connection fixing method on the fixing hole structure 58, such as adhesive bonding, etc.; Between the rib % and the positioning groove %, the hollow collar 68 can be fixed in the manner of a tight fit with the vibration absorbing plate 66 in the suction M397117 vibration washer 66. 'Additional' vibration absorbing structure 56 and fixing screw 54 and fixing hole The configuration number 1 of the structure 58 is not limited to one set, and may be added to other positions of the body 52 according to the actual anti-vibration product made by the speaker device. In addition, the design of the vibration absorbing structure is not limited to the above embodiment, that is, as long as the combination of the vibration absorbing cymbal and the hollow ferrule is designed to achieve the effect of protecting the vibration absorbing gasket, the juice is the creation of the present invention. For the protection range, for example, please refer to FIG. 5 , which is a schematic diagram of an explosion of the vibration-absorbing structure 1 根据 according to another embodiment of the present invention. As can be seen from FIG. 5 , the vibration-absorbing structure 100 includes a suction The vibrating piece 102 and the second set of % 104, the surface of the vibration absorbing pad # 1 () 2 are formed with an annular groove structure for attenuating the vibration transmitted from the main body 52, and similarly, the vibration absorbing piece ι 〇2 is composed of vibration-absorbing cushioning material, such as rubber, and the towel loop is preferably made of hard material such as plastic or metal; in addition, the inner edge of the shock absorbing sheet 1〇2 is formed. The protrusion-protruding structure 108 has a snap-fit 7110 formed on the outer edge of the hollow collar 1〇4, and the protruding engaging structure is configured to engage with the engaging groove 11〇, thereby fixing the hollow collar (10) to the vibration-absorbing pad In the piece 102, the assembly method can be as shown in Fig. 6, wherein Fig. 6 is a schematic view showing the combination of the hollow pure 1〇4 words shown in Fig. 5 exempted from the vibration absorbing sheet (1) 2. As for the vibration absorbing structure 100 and the fixing screw 54 and the fixing hole structure, the assembly process mentioned in the above embodiment can be referred to, in short, the vibration absorbing pad which will be equipped with the hollow, collar K) 4 The piece 102 (as shown in Fig. 6) is fixed to the fixing hole structure ^ after 'only need to be fixed _ 54 ± the position of the Μ and the Chengxian plate 6g for the lock M397117: load = open 104 while abutting the fixing screw 54 The screw head _ upper == can be completed (4) the body 52 (10) is hit by the bearing base (4). Similarly, since the hollow collar 104 is sleeved between the threaded portion 吸 and the suction 1 〇 2, the shock absorbing structure 100 Not only can the hollow collar be purchased and the screw head 62 and the bearing plate 6〇_ mutually abutting the abutting screw 54 relative to the vibration absorbing blade 1〇2 to continue to lock downward, thereby avoiding the vibration absorbing pad 1〇2 being subjected to The deformation of the screw head 62 of the fixing screw 发生 is caused by the deformation, and the configuration of the vacuum sleeve, the vibration absorbing and the threaded portion 64 is also provided to protect the vibration absorbing force. It is not scratched by the threaded portion 64. It is worth mentioning that 'from the series of Fig. 4 and Fig. 5, it is known that the vibration absorbing plate 66 adopts a thicker structure to generate a vibration absorbing effect, and the suction piece (10) adopts a square sheet structure design and utilizes a ring shape. The groove structure 1〇6 is designed to produce a vibration-damping effect. In other words, 'through the thick and different gasket structure design, the La (10) system provided by this creation can have a non-Chen performance, so as to meet its different environment protection. Vibration demand. > In addition, the vibration absorbing structure % and the structural design system mentioned in the vibration absorbing structure can be interactively applied, such as the design of the lion reduction, the positioning of the positioning _ and the fixed (10), the design of the annular groove structure, and the prominent The engagement structure of the engaging structure and the engaging groove, etc., thereby increasing the structural change of the vibration absorbing structure; for example, the annular groove structure 106 may be added to the surface of the vibration absorbing pad & and the vibration absorbing pad 1G2 is It is possible to add a damping rib A to enhance the anti-vibration performance. M397117 Compared with the prior art, the eight devices need to use the == for the green period, the number of the lions and the number of the _ _ er can be used to replace the empty scales made of hard materials such as plastic or metal. The special lion-fashion style with secret materials, the cost of the creation of the money: and; the cost, but also because of the special structural requirements for the screw is appropriate =
-般吊見的螺絲,所以吸振結構在實際使用上的組裝彈性亦可隨之 增加;另外’在運送方面,由於勢八裝置組裝薇僅需要使用一般常 見之螺絲就可輯行本創作職供之勢八裝置絲概板之组裝, 因此可不_外配送特殊_至·裝置組裝廠,如此—來,即可 不須額外配置爽持片以防止螺絲自吸錄片上崎的情況發生,也 就是說’本創作之伽 1置係可省略鱗片之設計,從而進一步地 降低喇°八裝置在組裝上的元件成本。 以上所述僅為本創作之較佳實施例,凡依本創作申請專利範圍 所做之均㈣化與修飾’皆應屬本創作之涵蓋範圍。 【圖式簡單說明】 第1圖為先前技術之喇η八裝置之爆炸示意圖。 第2圖為根據本創作之較佳實施例所提出之氣|置之部分示 意圖。 M397117 第3圖為第2圖所示之固定螺絲之放大示意圖。 第4圖為第2圖所示之吸振結構之爆炸示意圖。 第5圖為根據本創作另一較佳實施例所提出之吸振結構之爆炸 示意圖。 第6圖為第5圖所示之中空套環設置於吸振墊片内之組合示意 圖。 【主要元件符號說明】 10、50 喇口八裝置 12、52 0刺口八本體 20、58 固定孔結構 14、54 固定螺絲 16、66、102 吸振墊片 18 央持片 22 > 62 螺絲頭部 24 抵接部 26 ' 64 螺紋部 28 ' 60 承載基板 56 、 100 吸振結構 68、104 中空套環 70 頸部結構 72 減振肋 74 定位肋 76 定位凹槽 106 環形槽結構 108 突出卡合結構 110 卡合槽 12The screws that are normally hoisted, so the assembly elasticity of the vibration absorbing structure can be increased in actual use. In addition, in terms of transportation, since the assembly of the Eighth device requires only the use of common screws, the creative job can be edited. The assembly of the eight-device silk plate, so it is not possible to distribute the special _ to the device assembly plant, so that no additional configuration of the slab can be prevented to prevent the self-priming of the screw on the Sakizaki, that is, It is said that the design of the gamma 1 can omit the design of the scales, thereby further reducing the component cost of the assembly. The above descriptions are only the preferred embodiments of the present invention, and all of the (four)izations and modifications made by the scope of the patent application should be covered by this creation. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing the explosion of the prior art device. Figure 2 is a partial schematic illustration of the gas set forth in accordance with a preferred embodiment of the present invention. M397117 Figure 3 is an enlarged schematic view of the fixing screw shown in Figure 2. Fig. 4 is a schematic exploded view of the vibration absorbing structure shown in Fig. 2. Fig. 5 is a schematic exploded view of a vibration absorbing structure according to another preferred embodiment of the present invention. Fig. 6 is a schematic view showing the combination of the hollow collar shown in Fig. 5 in the vibration absorbing spacer. [Main component symbol description] 10, 50 Lakou eight device 12, 52 0 spur eight body 20, 58 fixing hole structure 14, 54 fixing screws 16, 66, 102 vibration absorbing pad 18 central holding piece 22 > 62 screw head Portion 24 abutment 26 ' 64 threaded portion 28 ' 60 carrier substrate 56 , 100 vibration absorbing structure 68 , 104 hollow collar 70 neck structure 72 damping rib 74 positioning rib 76 positioning groove 106 annular groove structure 108 protruding engagement structure 110 snap groove 12