M357184 四、 指定代表圖: (一) 本案指定代表圖為·弟(一)圖。 (二) 本代表圖之元件符號簡單說明: (1) 散熱殼體 (2) 上蓋 (5)散熱側板 (61)前蓋板 五、 新型說明: 【新型所屬之技術領域】 本創作係關於一種可堆疊之散熱殼體,尤指一種具有可堆 疊設置之散熱模組之散熱殼體。 【先前技術】 傳統之散熱殼體的設置’大多是依據殼體内部所要設置之 内裝物的高度或是所疊置之電路機板的高度來決定外部散熱 殼體結構之長度、寬度及高度,且為一固定型體之散熱殼體; 而廠商若有不同產品型體欲搭配散熱殼體來使用時,則勢必要 依據產品的型體來重新設計與開設模具以製造對應所需的散 熱殼體結構,不僅在產品的設計流程上較為繁複費時;且開設 模具費用動軏數十萬甚致上百萬,因此,薇商在設計開發每一 新產品時,其所對應之散熱殼體模具費用的支出亦造成公司沈 2 M357184 ^ 重的成本負擔與資金壓力。 【新型内容】 本創作係為一種可堆疊之散熱殼體,主要是藉由一具有可 堆登之散熱模組的設置來堆疊形成散熱殼體之兩側,以便使用 者可以依據散熱殼體之内裝物的高度需求,而使用散熱模組來 堆疊形成侧板’藉以彈性調整散熱殼體的兩側高度。 一種可堆疊之散熱殼體,包括:一上蓋、一底座、複數個 政熱模組、一如蓋板及一後蓋板。該些散熱模組之間可以彼此 上下堆疊设置而形成一散熱側板,其主要是藉由利用該些散熱 模組的堆疊設置來達到所需特定高度之該散熱側板;其中,亦 可以僅由讅一散熱模組來形成該一散熱側板;該底座之兩侧邊 則疋分別裝設有相同高度之該散熱侧板,而該上蓋則是裝設於 該二散熱峨之頂端。該前蓋板是裝設於由該上蓋、該二散熱 側板與該底麵喊結構之觸,而該後蓋板則是裝設於由該 上蓋、該二散熱側板與該底座所組成結構之後側。 俾使審查委員能對於本創作之技術特徵,有更進一步之了 解以下》堇以個具體實施例,且佐以圖式作詳細說明。 【實施方式】 實施例一,請參閱第一〜十三圖,本創作是一種可堆疊之 月欠熱 體(1 ) ’ 包;^ · _ 1 ^ /ΟΛ /Λ、 1Λ± I枯·上盍(2)、一底座(3)、複數個散熱模 3 M357184 · 組(4)、一前蓋板(61)及一後蓋板(62)。該些散熱模組⑷之間 可以彼此上下堆疊設置而形成一散熱側板(5),其主要是藉由 利用δ亥些散熱模組(4)的堆疊設置來達到所需特定高度之該散 熱側板(5),其中,亦可以僅由該一散熱模組(4)來形成該一散 熱側板(5)。該底座(3)之兩側邊則是分別裝設有相同高度之該 散熱側板(5),而該上蓋(2)則是裝設於該二散熱側板(5)之頂 端;該前蓋板(61)是裝設於由該上蓋(2)、該二散熱側板(5)與 該底座(3)所組成結構之前侧,而該後蓋板(62)則是裝設於由 該上蓋(2)、該二散熱側板(5)與該底座(3)所組成結構之後側。 δ亥可堆®之散熱殼體〇),主要是藉由該些散熱模組(4)的 堆疊設置以分卿成該賴殼體⑴兩側之該散熱側板⑸,以 便使用者可以依據該散熱殼體(1)之内裝物不同的高度需求或 是所疊置之電路機板(7)的高度,而來對應調整該散熱殼體(1) 的兩側高度。 該散熱模組(4)之頂面則設有一凸狀結構(41),該散熱模 組⑷之底面則設有一溝槽(42),該散熱模組⑷之兩側端面更 均叹有一螺孔(12),其中,該散熱模組(4)之一側面更設有一 政熱鰭片(11)結構;而部分該錄熱模組⑷底面之該溝槽⑷) 内更可設有複數個螺孔(12)。 而该些散熱模組(4)彼此之間的堆疊設置,則是利用該一 散熱模組⑷頂蚊該凸狀結構(41)去卡減合於該另-散熱 核組⑷底面之該雜(42),麵㈣成該絲織⑸結構。 4 M357184* 因此,該散熱側板(5)之頂面則具有該凸狀結構(41),該散熱 側板(5)之底面則具有該溝槽(42),該散熱側板(5)之兩側端面 則均具有該些螺孔⑽;其巾,由於該散細板⑸結構内底 部所堆疊設置域賴顯⑷,纽賴—散熱獅⑷底面 之該溝槽(42)内設有複數侧孔⑽之該散賊組⑷,所 以’該散熱侧板(5)底面之該溝槽(42)内則具有該些螺孔(12)。 該上蓋(2)之底面兩側端面更均設有一溝槽(a),上蓋(2) 之-側面更設有-散_片⑴)結構,而該上蓋⑵之兩側端 面則均設有複數個觀⑽;職二散熱織⑸頂面之該凸 狀結構(41)則是分別卡触合於該上蓋⑵之底面_端面之 "亥-溝槽(21)。該底座⑶之底面及前、後兩側端面則設置有 稷數個螺孔⑽;而該底座⑶則是卿獅⑻來穿設過該底 座(3)底面之該些螺孔⑽’並分卿合綱於該二散熱侧板 ⑸底面之該溝槽(42)内之該些螺孔⑽。而該前蓋板㈤則 是利用螺絲⑻來螺合_於由該上蓋⑵、該二散熱側板⑸ 與該底座⑶所組成結構之—側之該些螺孔(12);該後蓋板⑽ 則是利用螺絲⑻來螺合鎖固於由該上蓋⑵、該二散熱側板⑸ 與S亥底座(3)所組成結構之另一側之該些螺孔(12)。 上述實施例僅為說明本創作之原理及其功效,並非限制本 創作;因此,習於此技術之人士對上述實施例進行修改及變化 仍不脫本_之精神。本創作已具備絲上利雜、新穎性及 進步性,並符合新料利要件,爰依法提起申請。 M357184 【圖式簡單說明】 第一圖本創作之立體圖; 第二圖本創作之元件分解圖; 第三圖本創作之散熱側板之結構圖(一); 第四圖本創作之散熱側板之結構圖(二); 第五圖本創作之散熱側板之結構圖(三); 第六圖本創作之散熱側板之元件分解圖; 第七圖本創作之散熱模組之結構圖(一); 第八圖本創作之散熱模組之結構圖(二); 第九圖本創作之散熱模組之結構圖(三); 第十圖本創作之上蓋之立體圖; 第十一圖本創作之底座之立體圖; 第十二圖本創作之實施例圖(一); 第十三圖本創作之實施例圖(二)。 【主要元件符號說明】 (1) 散熱殼體 (11) 散熱鰭片 (12) 螺孔 (2) 上蓋 (21)溝槽 (3) 底座 M357184 . (4) 散熱模組 (41) 凸狀結構 (42) 溝槽 (5) 散熱側板 (61) 前蓋板 (62) 後蓋板 (7) 電路機板 (8) 螺絲M357184 IV. Designated representative map: (1) The representative representative of the case is the picture of the younger brother (1). (2) Brief description of the component symbols of this representative diagram: (1) Heat-dissipating housing (2) Upper cover (5) Heat-dissipating side plate (61) Front cover plate 5. New description: [New technical field] This creation is about a kind A stackable heat sink housing, especially a heat sink housing having a stackable heat sink module. [Prior Art] The arrangement of the conventional heat-dissipating housing is mostly based on the height of the interior of the housing or the height of the stacked circuit board to determine the length, width and height of the external heat-dissipating housing structure. And it is a heat-dissipating shell of a fixed type; if the manufacturer has different product types to use with the heat-dissipating shell, it is necessary to redesign and open the mold according to the shape of the product to manufacture the corresponding heat-dissipating heat. The shell structure is not only complicated and time-consuming in the design process of the product; and the cost of opening the mold is hundreds of thousands of dollars, so the corresponding heat-dissipating shell of Weishang in designing and developing each new product. The cost of mold costs also caused the company to bear the cost burden and financial pressure. [New content] This creation is a stackable heat-dissipating shell, which is mainly formed by stacking the heat-dissipating shells with a stackable heat-dissipating module, so that the user can rely on the heat-dissipating shell. The height of the contents is required, and the heat dissipation module is used to stack the side plates to flexibly adjust the heights of the sides of the heat dissipation housing. A stackable heat dissipation housing comprises: an upper cover, a base, a plurality of thermal modules, a cover plate and a rear cover. The heat dissipation modules can be stacked on top of each other to form a heat dissipation side plate, which is mainly used to achieve the desired specific height of the heat dissipation side plate by using the stacking arrangement of the heat dissipation modules; A heat dissipation module is formed to form the heat dissipation side plate; the two sides of the base are respectively provided with the heat dissipation side plates of the same height, and the upper cover is installed at the top end of the two heat dissipation holes. The front cover is installed on the upper cover, the two heat dissipation side plates and the bottom surface of the shouting structure, and the rear cover is installed on the structure formed by the upper cover, the two heat dissipation side plates and the base side.审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查 审查[Embodiment] For the first embodiment, please refer to the first to thirteenth drawings. The creation is a stackable month underheating body (1) 'package; ^ · _ 1 ^ /ΟΛ /Λ, 1Λ± I dry·on盍 (2), a base (3), a plurality of heat-dissipating dies 3 M357184 · a group (4), a front cover (61) and a rear cover (62). The heat dissipation modules (4) can be stacked on top of each other to form a heat dissipation side plate (5), which is mainly used to achieve a desired specific height of the heat dissipation side plate by using a stacking arrangement of some heat dissipation modules (4). (5), wherein the heat dissipation side plate (5) may be formed only by the heat dissipation module (4). The two sides of the base (3) are respectively provided with the same height of the heat dissipation side plate (5), and the upper cover (2) is installed at the top of the two heat dissipation side plates (5); the front cover (61) is mounted on a front side of the structure composed of the upper cover (2), the two heat dissipation side plates (5) and the base (3), and the rear cover plate (62) is mounted on the upper cover ( 2) The rear side of the structure formed by the two heat dissipation side plates (5) and the base (3). The heat dissipation housing (δ) of the δ haike stack® is mainly disposed by the stacking of the heat dissipation modules (4) to divide the heat dissipation side plates (5) on both sides of the housing (1) so that the user can The height requirements of the heat sink housing (1) or the height of the stacked circuit board (7) are adjusted to adjust the height of the two sides of the heat sink housing (1). The top surface of the heat dissipation module (4) is provided with a convex structure (41), and a bottom surface of the heat dissipation module (4) is provided with a groove (42), and both end faces of the heat dissipation module (4) are snailed with a snail a hole (12), wherein one side of the heat dissipation module (4) is further provided with a structure of a heat fin (11); and a portion of the groove (4) of the bottom surface of the heat recording module (4) is further provided with a plurality of holes (4) Screw holes (12). The stacking of the heat dissipating modules (4) is performed by using the heat dissipating module (4) to lift the convex structure (41) to reduce the miscellaneousness of the bottom surface of the other heat dissipating core group (4). (42), the surface (four) into the silk weave (5) structure. 4 M357184* Therefore, the top surface of the heat dissipation side plate (5) has the convex structure (41), and the bottom surface of the heat dissipation side plate (5) has the groove (42), and both sides of the heat dissipation side plate (5) The end faces each have the screw holes (10); and the towel has a plurality of side holes in the groove (42) of the bottom surface of the base of the heat dissipation lion (4) due to the stacking of the bottom portion of the structure of the fine plate (5). (10) The thief group (4), so that the screw holes (12) are formed in the groove (42) on the bottom surface of the heat dissipation side plate (5). The upper end surface of the upper cover (2) is further provided with a groove (a), and the side surface of the upper cover (2) is further provided with a structure of a loose-sheet (1), and both end faces of the upper cover (2) are provided The plurality of views (10); the convex structure (41) of the top surface of the second heat-dissipating woven fabric (5) is respectively engaged with the bottom-end surface of the upper cover (2). The bottom surface of the base (3) and the front and rear end faces are provided with a plurality of screw holes (10); and the base (3) is a lion (8) to pass through the screw holes (10) of the bottom surface of the base (3) and is divided into The cores are the screw holes (10) in the groove (42) on the bottom surface of the two heat dissipation side plates (5). The front cover (5) is screwed with the screw (8) _ the screw holes (12) on the side of the structure composed of the upper cover (2), the two heat dissipation side plates (5) and the base (3); the rear cover (10) Then, the screw holes (12) are screwed to the screw holes (12) on the other side of the structure composed of the upper cover (2), the two heat dissipation side plates (5) and the Shai base (3). The above embodiments are merely illustrative of the principles and functions of the present invention, and are not intended to limit the present invention; therefore, modifications and variations of the embodiments described above will be apparent to those skilled in the art. This creation has been confusing, novel and progressive, and meets the requirements of new materials. M357184 [Simple description of the drawing] The first picture shows the perspective view of the creation; The second picture shows the exploded view of the component; The third picture shows the structure of the heat dissipation side plate of the creation (1); The fourth picture shows the structure of the heat dissipation side plate of the creation Figure (2); Figure 5 is a structural diagram of the heat dissipation side plate of the creation (3); Figure 6 is an exploded view of the heat dissipation side plate of the creation; Figure 7 is a structural diagram of the heat dissipation module of the creation (1); The structure diagram of the heat dissipation module of the eight pictures is created (2); the structure diagram of the heat dissipation module of the creation of the ninth picture (3); the tenth picture of the upper cover of the creation; the eleventh picture shows the base of the creation Fig. 12 is a diagram showing the embodiment of the creation (1); Fig. 13 is a diagram (2) of the embodiment of the creation. [Main component symbol description] (1) Heat-dissipating case (11) Heat-dissipating fin (12) Screw hole (2) Upper cover (21) Groove (3) Base M357184 . (4) Heat-dissipating module (41) Convex structure (42) Groove (5) Heat sink side plate (61) Front cover (62) Rear cover (7) Circuit board (8) Screw