M368880 五、新型說明: 【新型所屬之技術領域】 本案係關於一種固態硬碟結構,尤指一種具有自固組裝設計 之固態硬碟結構。 【先前技術】 由於固態硬碟(Solid State Disk,SSD)之技術與價格已越來越受 到一般使用者的肯定與接受,因此,各種新的殼體結構設計便不 斷地被推陳出新。 其中’爲防止消費者因某種特定目的而自行破壞或拆卸殼體 組裝,生產廠商通常會搭配某種形式之防拆設計結構。例如,以 螺絲將固態硬碟殼m其蓋體相互鎖固後,於接縫處或螺絲處 貼上具強力祕的防拆貼紙,抑或使用___些卡合式㈣結構,以 春使相費者於欲進行拆卸動作時,必需使用到拆卸工具,方可達到 破壞ί生開啟之目的。惟’習知此種卡合式鎖固結構,不是有設計 •過於複雜’以致實施成本較高昂的問題,即是需搭關助性组褒 工具而有組裝不易的缺失。 四此 達到防止消種設計簡單與易於組裝,且可同時有效地 铲0 / ㈣殼心讀之㈣結構料,便成為本宰 欲改良與設計之重點所在。 Μ為本案 【新型内容】 4 M368880 本案的主要目的,在於提出一種具自固效果,且無需使用任 何輔助性組裝工具即可輕易實施組裝之固態硬碟結構。 本案之一較佳做法,係關於—種固態硬碟結構,包含:具有 •可與外部連通之一中空容室之殼體,用以容置具有至少一固態記 •憶體模組之一電路板;以及一蓋體,結合於該中空容室之一=部 連通表面,j_該外部連通表面之—第—及第三側端各設置有至少 一結合孔座;其中,該蓋體相對應於該外部連通表面之一蓋體内 表面處,設置有相對應於該些結合孔座之複數個釘體,且藉由設 於至少一釘體處之一縮頸結構,以於該至少一釘體沿著一結合方 向結合於相對應之結合孔座時,使該縮頸結構受擠壓而產生一偏 向旋轉移動,並使具有該縮頸結構之該至少一釘體無法再以相反 於該結合方向之方式脫離該相對應之結合孔座。 根據上述較佳之做法,其中於該外部連通表面之左右兩側端 Φ 各設置有相對應之兩結合孔座。 根據上述較佳之做法,其中該縮頸結構係設置於該至少一釘 • 體之頂部。 根據上述較佳之做法,其中該縮頸結構包含:一内縮部,形 成於該至少一釘體之側壁,且該内縮部之圓徑係小於該至少一釘 體之圓徑;以及-抵頂部,係自該内縮部處所延伸形成之一圓錐 結構。 根據上述較佳之做法,其中該圓錐結構具有朝向該内縮部之 方向傾斜設置之一傾斜抵頂弧面。 5 M368880 根據上述較佳之做法,其中該傾斜抵頂弧面結合接觸於相對 應之結合孔座時,將因受到一擠壓抵頂力量而產生該偏向旋轉移 動。 根據上述較佳之做法,其中於該内縮部形成於該至少一釘體 之右側側壁時,將使該抵頂部產生一逆時針偏向旋轉移動,抑或 •於該内縮部形成於該至少一釘體之左側側壁時,將使該抵頂部產 生一順時針偏向旋轉移動。M368880 V. New description: [New technical field] This case relates to a solid-state hard disk structure, especially a solid-state hard disk structure with self-solid assembly design. [Prior Art] Since the technology and price of Solid State Disk (SSD) have been more and more recognized and accepted by the general users, various new housing structure designs are constantly being introduced. In order to prevent consumers from destroying or disassembling the casing for a specific purpose, the manufacturer usually matches some form of tamper-evident design. For example, after screwing the solid hard disk shell m to each other with a screw, attach a strong tamper-proof sticker to the joint or the screw, or use the ___ some snap-fit (four) structure to make the spring phase When the consumer wants to perform the disassembly action, it is necessary to use the disassembly tool in order to achieve the purpose of destroying the opening. However, it is not known that such a snap-fit locking structure is not designed to be too complicated, so that the implementation cost is relatively high, that is, it is necessary to take care of the group tool and there is a lack of assembly. In this way, it is easy to eliminate the design and easy to assemble, and it can effectively shovel 0 / (4) shell reading (4) structural materials, which becomes the focus of the improvement and design. ΜThis is the case [New content] 4 M368880 The main purpose of this case is to propose a solid-state hard disk structure with self-solid effect and can be easily assembled without using any auxiliary assembly tool. A preferred embodiment of the present invention relates to a solid-state hard disk structure comprising: a housing having a hollow chamber connectable to the outside for housing a circuit having at least one solid state memory module a cover body; and a cover body coupled to the one of the hollow chambers and the communication surface, wherein the first and third side ends of the outer communication surface are provided with at least one joint hole seat; wherein the cover body phase Corresponding to the inner surface of the cover of one of the external communication surfaces, a plurality of nail bodies corresponding to the combined hole holders are disposed, and at least one of the neck portions is disposed at at least one of the nail bodies, so as to at least When a nail body is coupled to the corresponding joint hole seat along a joint direction, the neck structure is pressed to generate a biasing rotational movement, and the at least one nail body having the necked structure can no longer be reversed The corresponding joint hole seat is separated from the corresponding direction. According to the above preferred method, the two left and right end ends Φ of the external communication surface are respectively provided with corresponding two coupling hole holders. According to the above preferred method, the necking structure is disposed on the top of the at least one nail body. According to the above preferred method, the necking structure includes: a constricted portion formed on a sidewall of the at least one nail body, and a circular diameter of the indented portion is smaller than a circular diameter of the at least one nail body; and The top portion extends from the constriction to form a conical structure. According to a preferred embodiment described above, the conical structure has a sloped abutting arcuate surface disposed obliquely toward the constricted portion. 5 M368880 According to the preferred method described above, wherein the inclined abutting arc surface is combined with the corresponding joint hole seat, the biasing rotational movement is caused by a pressing abutting force. According to the above preferred method, when the indented portion is formed on the right side wall of the at least one nail body, the counter top portion is caused to have a counterclockwise biasing rotational movement, or the inner contraction portion is formed on the at least one nail. The left side wall of the body will cause a clockwise biasing rotational movement of the abutting top.
本案之另一較佳做法,係關於一種固態硬碟結構,包含:一 固態硬碟殼體;一蓋體,結合於該固態硬碟殼體之一外側表面, 且該外側表面之一左右兩側端各設置有至少一結合孔座;以及複 數個釘體,設置於該蓋體相對應於該外側表面之一蓋體内表面 處,且於至少一釘體之頂部處設置有一縮頸結構;其中,該縮頸 結構之一内縮部之圓徑係小於該至少一釘體之圓徑,以使該至少 一釘體結合於相對應之結合孔座後,該縮頸結構將因受擠壓而產 生一偏向旋轉移動,俾使該至少一釘體無法再自其中反向脫離, 進而使該蓋體與該固態硬碟殼體相互穩固結合於一體。 根據上述較佳之做法,其中該_結構包含:該内縮部形 成於該至少-釘體之側壁;以及—抵頂部,係自該⑽部處所延 伸形成之一圓錐結構。 根據上述較佳之做法,其中該_結構具有朝向該内縮部之 方向傾斜設置之一傾斜抵頂弧面。 根據上述較佳之做法,其中該傾斜抵頂弧面結合接觸於相對 應之結合孔座時,將因受到—擠壓抵頂力量而產生該偏向旋轉移 動0 6 M368880 根據上述㈣之做法,其中於該_部形成於該至少一釘體 之右側側壁時,將使該抵頂部產生—逆時針偏向旋轉移動,抑或 於該内縮部形成於該至少—釘體之左側側壁時,將使該抵頂部產 生一順時針偏向旋轉移動。 . 【實施方式】 以下兹列舉—較佳—x說明本創作,然熟悉此項技藝者 擊皆知此僅為一舉例,而並非用以限定創作本身。 請參閱圖1〜2B所示者;其中,圖丨係為本案之—較佳實施 例之概念示意圖;圖2A以及圖2B係為本案之較佳實施例中設置 於盖體處之釘體於結合於相對應孔座中之作動前後之釘體型態變 化之概念示意圖。 亦即,本實施例所示之一固態硬碟結構丨〇,係包含:一殼體(或 可稱為固態硬碟殼體)11以及一蓋體12;其中,該殼體n具有可 φ 與外部連通之一中空容室(圖未示出),俾用以容置具有至少一固態 -記憶體模組1101之一電路板110。另外,該殼體u之一外部連通 .表面(或可稱為外側表面)111之一左右兩側側端丨丨i丨、丨丨12各設置 有至少一結合孔座112、113。 再則,該蓋體12相對應於該外部連通表面1U之一蓋體内表 面121處,設置有相對應於該些結合孔座1丨2、丨丨3之兩釘體丨22、 123 ’且於任一釘體的頂部’分別設有—縮頤結構1221、1231。 其中’ s玄縮頌結構1221、1231係分別由一内縮部12211、12311 以及分別自該些内縮部12211、12311處所延伸形成之一圓錐結構 M368880 之抵頂部12212、12312所組成。 本實施例之特徵在於,該些内縮部12211、12311係形成於該 些釘體122、123之側壁,且該些内縮部12211、12311之圓徑係 小於各自釘體122、123之圓徑。又,呈圓錐結構之該些抵頂部 12212、12312 ,係皆具有朝向各自内縮部12211、12311之方向傾 . 斜設置之一傾斜抵頂弧面。如此一來,於該些釘體122、123沿著 一結合方向R1接觸結合於相對應之結合孔座112、113中時,該 些縮頸結構1221、1231之該些抵頂部丨2212、12312,將皆受到一 ® 擠壓抵頂力量而產生一偏向旋轉移動,而卡入並咬合於該些結合 孔座112、113,是以,此將使得該些釘體122、123無法再以相反 於该結合方向R1之方式脫離該些結合孔座112、113。 申言之,如圖2A所示般,當該些釘體122、123尚未與該些 結合孔座112、113相接觸結合時,該些抵頂部12212、12312之 橫向徑寬係假設為D。一旦,當該些釘體122、123與該些結合孔 座112、113相接觸結合後,由於該内縮部12211係形成於該釘體 • I22之右側側壁,故該抵頂部12212將因擠壓而產生一逆時針偏向 旋轉移動R2 ;另外,形成於該釘體123之左侧側壁之該另一内縮 •部12311,則將使該抵頂部12312因擠壓而產生一順時針偏向旋轉 移動R3。亦即,該些抵頂部12212、12312之橫向徑寬將於遂行 結合過程中,因受到該擠壓抵頂力量而逐漸形變並縮小為D,,並 如圖2B所示般。當然,該些内縮部12211、12311形成於些該釘 體122、123之側壁的位置,可以有其他不同的均等變化與設計。 如此一來,因該些抵頂部12212、12312將會被緊實地卡固於 該些結合孔座112、113中,故該蓋體12將無法再以相反於該結 8 M368880 合方向R1之方式脫離該殼體11,進而達到使該蓋體12自固組裝 於該殼體11之目的。 較佳者’有關上述該些釘體122、123與該些結合孔座112、 之實際設置位置或設置數量,以及該縮頸結構1221、1231於 其中之實際設置方式或設置數量,係皆可由熟悉本技藝之人士進 仃均等設計與組合變化,惟皆不脫本案所欲主張之權利範圍。 絲上論述,本案透過簡單與低成本的設計,即可輕易達到完 成組裝固態硬碟殼體與其對應殼體,且同時避免使用者任意拆封 相關結構之目的;基此’本案實為—極具產業價值之作。 、本案得由熟悉本技藝之人士任施匠思而為諸般修飾,然 脫如附申請專利範圍所欲保護者。 M368880 【圖式簡單說明】 圖1 ·其係為本案之一較佳實施例之概念示意圖; 圖2A、圖2B:其係分別為本案之較佳實施例中設置於蓋體處 之釘體於結合於相對應孔座中之作動前後之釘體型態變化之概念 不意圖。 【主要元件符號說明】 固態硬碟結構 1〇 殼體(或固態硬碟殼體)η 電路板110 固態記憶體模組1101 外部連通表面(或外側表面)U1 兩側(左右)側端1111、1112 結合孔座112、113 蓋體12 蓋體内表面121 釘體 122、123 縮頸結構 1221、1231。 内縮部 12211、12311 抵頂部 12212、12312 結合方向 R1 逆時針偏向旋轉移動R2 M368880Another preferred embodiment of the present invention relates to a solid state hard disk structure comprising: a solid hard disk housing; a cover body coupled to one of the outer side surfaces of the solid hard disk housing, and one of the outer side surfaces Each of the side ends is provided with at least one combined hole holder; and a plurality of nail bodies are disposed at the inner surface of the cover body corresponding to the cover body, and a necking structure is disposed at the top of the at least one nail body Wherein the circular diameter of one of the constricted portions of the constricted structure is smaller than the circular diameter of the at least one nail body, so that the at least one nail body is coupled to the corresponding joint hole seat, and the constricted structure is subject to The squeezing produces a biasing rotational movement, so that the at least one nail body can no longer be detached therefrom, so that the cover body and the solid hard disk housing are firmly coupled to each other. According to the preferred embodiment described above, wherein the structure comprises: the indentation being formed on the side wall of the at least the nail body; and the abutting top portion extending from the (10) portion to form a conical structure. According to the above preferred embodiment, the _ structure has a slanted abutting curved surface which is inclined toward the direction of the retracted portion. According to the above preferred method, wherein the inclined abutting arc surface is combined with the corresponding joint hole seat, the biasing rotation force is generated due to the pressing-capping force. 6 6 M368880 According to the above (4), When the _ portion is formed on the right side wall of the at least one nail body, the apex portion is caused to rotate counterclockwise, or when the condensed portion is formed on the left side wall of the at least the nail body, The top produces a clockwise biased rotational movement. [Embodiment] The following is a list of preferred - x descriptions of the present invention, but it is well known to those skilled in the art that this is merely an example and is not intended to limit the creation itself. 1 to 2B; FIG. 2A and FIG. 2B are schematic diagrams of the preferred embodiment of the present invention; A conceptual diagram of the change in the shape of the nail before and after the actuation in the corresponding socket. That is, the solid state hard disk structure structure shown in this embodiment includes: a casing (or may be referred to as a solid-state hard disk casing) 11 and a cover body 12; wherein the casing n has a φ A hollow chamber (not shown) is connected to the outside for receiving a circuit board 110 having at least one solid-memory module 1101. Further, one of the casings u is externally connected. One of the left and right side ends 丨丨i, 丨丨12 of the surface (or may be referred to as an outer side surface) 111 is provided with at least one joint hole 112, 113. Furthermore, the cover 12 corresponds to the inner surface 121 of the cover of the external communication surface 1U, and two nail bodies 22, 123' corresponding to the combined hole holders 1 and 2 are provided. And at the top of any of the nail bodies are respectively provided - a constricted structure 1221, 1231. The 's sinusoidal structures 1221, 1231 are respectively composed of a constricted portion 12211, 12311 and a top portion 12212, 12312 extending from the constricted portions 12211, 12311 to form a conical structure M368880. The embodiment is characterized in that the indented portions 12211 and 12311 are formed on the side walls of the nail bodies 122 and 123, and the rounded diameters of the indented portions 12211 and 12311 are smaller than the rounds of the respective nail bodies 122 and 123. path. Moreover, the abutting portions 12212, 12312 which are in the shape of a cone have a direction toward the respective indented portions 12211, 12311. One of the obliquely disposed faces abuts against the top arc. As a result, when the nail bodies 122, 123 are in contact with the corresponding joint holes 112, 113 along a joining direction R1, the abutting portions 2212, 12312 of the necking structures 1221, 1231 , will be subjected to a squeezing force to produce a biasing rotational movement, and snap into and engage with the coupling hole seats 112, 113, so that the nail bodies 122, 123 can no longer reverse The coupling holes 112, 113 are separated from the coupling direction R1. As a result, as shown in FIG. 2A, when the nail bodies 122, 123 are not yet in contact with the joint holes 112, 113, the lateral diameters of the top portions 12212, 12312 are assumed to be D. Once the nail bodies 122, 123 are in contact with the joint holes 112, 113, since the indented portion 12211 is formed on the right side wall of the nail body I22, the top portion 12212 will be squeezed. Pressing to generate a counterclockwise biasing rotational movement R2; in addition, the other indentation portion 12311 formed on the left side wall of the nail body 123 will cause the abutting top portion 12312 to be rotated clockwise to produce a clockwise biasing Move R3. That is, the lateral diameters of the top portions 12212, 12312 will be gradually deformed and reduced to D by the pressing force of the pressing force during the merging process, as shown in Fig. 2B. Of course, the indented portions 12211, 12311 are formed at the positions of the side walls of the nail bodies 122, 123, and may have other different equal variations and designs. In this way, since the abutting portions 12212 and 12312 are tightly clamped in the coupling hole seats 112 and 113, the cover body 12 can no longer be opposite to the junction 8 M368880 in the direction R1. The housing 11 is disengaged, and the cover 12 is self-assembled and assembled to the housing 11. Preferably, the actual setting position or the number of the above-mentioned nail bodies 122, 123 and the combined hole holders 112, and the actual setting manner or the number of the necking structures 1221 and 1231 therein can be Those who are familiar with the art are subject to the same design and combination changes, but they do not deviate from the scope of the rights claimed in this case. On the silk, this case can easily achieve the purpose of assembling the solid-state hard disk housing and its corresponding housing through simple and low-cost design, and at the same time avoiding the user's purpose of unpacking the relevant structure at will; A work of industrial value. This case has been modified by those who are familiar with the art, but it is intended to be protected by the scope of the patent application. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a conceptual diagram of a preferred embodiment of the present invention; FIG. 2A and FIG. 2B are respectively a nail body disposed at a cover body in a preferred embodiment of the present invention; The concept of the change in the shape of the nail before and after the actuation in the corresponding socket is not intended. [Main component symbol description] Solid state hard disk structure 1 〇 case (or solid state hard disk case) η Circuit board 110 Solid state memory module 1101 External communication surface (or outer surface) U1 Both sides (left and right) side end 1111 1112 Bonding sockets 112, 113 Cover body 12 Cover inner surface 121 The nail bodies 122, 123 are necked structures 1221, 1231. Retracted parts 12211, 12311 to the top 12212, 12312 combined direction R1 counterclockwise biased rotation R2 M368880
順時針偏向旋轉移動 R3 抵頂部之橫向徑寬 D、DRotate clockwise to move R3 to the top of the horizontal diameter D, D