M423136 五、新型說明: 【新型所屬之技術領域】 本創作係一種高架地板,尤指一種使用具有不同數量 切面的凹部,透過該切面阻擋應力直線傳遞以避免地板的 變形的高架地板。 【先前技術】 • 一般辦公大樓的辦公室或是電腦機房内,為了將連接於 各種事務機器或電腦伺服器的實體線路有效地隱藏,提升室 内的整齊與舒適感,目前是使用一種高架地板以達到前述目 地’當室内空間設置此種可用於架高地面高度的地板時,於 該地板下方可容置各種不同用途的線路,再者若有維修需求 也可以較簡便的個別移開地板,以進行維修或其它線路增減 作業。 .現有的高架地板,如我國新型專利權第M388541號之 • 合金鋼高架地板,其構造可為由若干單元地板予以排列組合 而成,於各單元地板的一底面中央處内凹設有複數圓形凹 部’並於單元地板的底面的各側邊分別間隔設有複數長形凹 部’各圓形凹部與長形凹部係以直線排列的方式排列而成, 藉此增加單元地板於其側邊處的支撐力,進而使各單元地板 組合而成的高架地板具有足夠的重壓強度抗壓性;但當單元 地板的承受較大的外力或重量時’由於其圓形凹部與長形凹 部是以直線的排列方式,易使應力經由各凹部間的間隙以直 線方式穿過整片單元地板而變形損壞,使得整體高架地板可 3 M423136 承受的重壓強度與抗壓性受到限制。 【新型内容】 如前揭所述,現有高架地板使.用時,容易有應力以直線 方式穿過地板而變形損壞與承載重壓強度抗壓性不足的問 題;因此本創作主要目的是提供一種高架地板,利用具有不 同數量切面的凹部阻擋應力直線傳遞,以解決高架地板易受 應力直線傳遞而損壞的問題。 為達成前述目的所採取的主要技術手段係令前述高架 地板,包括有: 一支撐本體’具有一上開口與一底部,其底部形成有複 數向上開口内凹的凹部,各凹部的頂端分別形成有.一頂撐 部’又各凹部分別具有一.周壁,該周壁上形成有一弧面及一 個以上的切面,再者,各凹部係呈規則狀排列於底部上並構 成數個同心環,其中,位於底部最中央同心環的各凹部,係 令其切面相對朝内,最外側同心環的凹部,係令其切面相對 朝外’其他凹部則令其切面朝向相鄰同心環上兩相鄰凹部之 間隙及/或相鄰凹部的弧面; 一面板’係呈規則形狀,具有一底面,該底面係與支撐 本體的頂撐部相對接合; 由前述元件組成的高架地板,其支撐本體底部上形成 有複數凹部,相鄰的各凹部之間具有間隙,並分別構成應 力通道,利用在各凹部上形成一個以上的切面,並令其切 面分別朝向相鄰的應力通道’再者,各凹部以環狀交錯的 排列方式’使應力通道呈非直線狀,藉此阻擋應力直線傳 M423136 遞以避免支樓本體產生變形損壞的問題。 【實施方式】 關於本創作的第一較佳實施例,請參閱圖1所示,包 含有一支撐本體1〇,其具有一底部,該底部形成有一環狀 凸肋11與複數内凹的凹部12,12,,12”,該環狀凸肋11是環 繞於支撐本體10底部的邊緣處,且由支撐本體1〇底部向下 • 突出的令空長型肋體;各凹部12,12,,12,,的頂端分別形成有 —頂撐部14,又各凹部12,12,,12”係呈環狀交錯地排列於環 狀凸肋1 1内,並由内而外構成三個同心環。 請參閱圖2所示,該支撐本體1〇上進一步設有一面板 氏’其上形成有一個以上且相對 該穿孔21係用以分別與各凹部 ,該面板20係呈規則形狀, 於各頂撐部14的穿孔21,該: 上相對的頂撐部14接合。M423136 V. New description: [New technical field] This creation is a raised floor, especially a raised floor that uses a recess with a different number of cut planes to block the transmission of stress through the cut surface to avoid deformation of the floor. [Prior Art] • In the office building of a general office building or in a computer room, in order to effectively hide the physical lines connected to various transaction machines or computer servers, and to improve the tidyness and comfort of the room, a raised floor is currently used to achieve In the above-mentioned purpose, when the indoor space is provided with a floor that can be used for raising the floor height, various lines for different purposes can be accommodated under the floor, and if the maintenance demand is required, the floor can be removed more easily. Repair or other line increase or decrease operations. Existing raised floor, such as China's new patent No. M388541 • Alloy steel raised floor, the structure can be arranged by a combination of several unit floors, and a plurality of circles are recessed in the center of a bottom surface of each unit floor The concave portion ′ is respectively provided with a plurality of elongated recesses at respective sides of the bottom surface of the unit floor. The circular concave portions and the elongated concave portions are arranged in a line, thereby increasing the unit floor at the side thereof. The supporting force, which in turn makes the raised floor of each unit floor have sufficient compressive strength and compressive strength; but when the unit floor is subjected to a large external force or weight, 'because its circular recess and elongated recess are The linear arrangement makes it easy for the stress to be deformed and damaged through the gap between the recesses through the entire unit floor in a straight line, so that the weight and compression resistance of the overall raised floor can be limited to 3 M423136. [New content] As mentioned above, the existing raised floor makes it easy to have the problem of stress passing through the floor in a straight line, which is deformed and damaged and has insufficient stress resistance and compressive strength; therefore, the main purpose of this creation is to provide a The raised floor uses a recess with a different number of cut planes to block the linear transmission of stress to solve the problem that the raised floor is susceptible to damage caused by the straight line of stress. The main technical means adopted for achieving the foregoing purposes are the aforesaid raised floor, comprising: a support body having an upper opening and a bottom, the bottom portion of which is formed with a plurality of concave portions which are upwardly open and concave, and the top ends of the concave portions are respectively formed with a top support portion and each of the concave portions respectively have a circumferential wall, wherein the circumferential wall is formed with a curved surface and one or more cutting surfaces, and further, each concave portion is regularly arranged on the bottom portion and constitutes a plurality of concentric rings, wherein The recesses located at the central concentric ring of the bottom are such that their cut faces are relatively inward, and the concave portions of the outermost concentric rings are such that their cut faces are relatively outward; the other recesses are oriented to face the adjacent recesses on the adjacent concentric rings. a gap and/or a curved surface of an adjacent recess; a panel 'in a regular shape having a bottom surface that is oppositely engaged with the top support portion of the support body; a raised floor composed of the aforementioned elements, formed on the bottom of the support body a plurality of concave portions having gaps between adjacent concave portions and respectively forming stress passages, forming one or more cut surfaces on each concave portion, and Cut surfaces are facing the adjacent channel stress "Further, each of the annular recessed portion in a staggered arrangement 'of the stress in a non-linear path, thereby blocking the linear stress transfer M423136 delivery body in order to avoid problems branched floor deformation damage. [Embodiment] A first preferred embodiment of the present invention, as shown in FIG. 1, includes a support body 1 〇 having a bottom portion, the bottom portion being formed with an annular rib 11 and a plurality of concave recesses 12 , 12, 12", the annular rib 11 is an air-length rib that surrounds the bottom of the support body 10 and protrudes downward from the bottom of the support body 1; each recess 12, 12, 12, the top end is formed with a top support portion 14, and each of the concave portions 12, 12, 12" is arranged in a ring-like staggered manner in the annular rib 1 1 and constitutes three concentric rings from the inside to the outside. . Referring to FIG. 2, the support body 1 is further provided with a panel s which has more than one formed thereon and is opposite to the through holes 21 for respectively corresponding to the recesses. The panel 20 has a regular shape for each struts The perforations 21 of the portion 14 are: the upper opposing abutments 14 are joined.
M423136 請參閱圖5所示,相鄰的各凹部12,12,,12”之間具有間隙, 並於凹部12,12’,12”的周圍構成一應力通道,由於各凹部 12,12’,12’’呈環狀交錯地排列,使得應力通道呈非直線狀, 當面板20受應力時,會將應力分散傳遞至各凹部12周圍 的應力通道中,利用在各凹部12,12,,12,,上形成的切面13 朝向相鄰的應力通道與各凹部12,12,,12”以環狀交錯排列 方式,如圖中A點所示,其應力通道因相鄰各凹部 12,12’,12”的排列方式而呈不規則狀,當A點的應力向外傳 遞時,應力會被相鄰凹部12,12,,12”的切面121與弧面122 所阻擋而無法直線傳遞,避免支撐本體1〇產生變形損壞。 關於本創作的第二較佳實施例,請參閱圖6所示,於 本實施例中,各凹部12,12,,12”的排列方式係與第一較佳實 施例大致相同,唯於支撐本體1〇底部的其中一側邊上形成 有出線口 15备尚架地板鋪設完成後,可將各種不同用 途的線路從高架地板的底面向上伸出,以連接至所需的各 種設備。 由别述可知’利用其不同數量切面的凹部1 2,1 2,,1 2,,, 以垓狀交錯的方式排列,使其切面分別朝向相鄰的應力通 道’可阻擋應力直線傳遞而避免地板變形損壞的問題。 【圖式簡單說明】 圖1 .係本創作第一較佳實施例的仰視圖。 圖2 .係本創作第一較佳實施例的分解圖。 圖3 .係本創作第一較佳實施例的平面圖。 圖4 .係本創作第一較佳實施例的剖面圖。 M423136 圖5 :係本創作第一較佳實施例的應力分佈圖。 圖6 :係本創作第二較佳實施例的平面圖。 【主要元件符號說明】 10支撐本體 11環狀凸肋 12,12’,12” 凹部 121 切面 122弧面 15出線口 20面板 14頂撐部 21穿孔M423136 Referring to FIG. 5, there is a gap between adjacent recesses 12, 12, 12", and a stress path is formed around the recesses 12, 12', 12", due to the recesses 12, 12', The 12'' is arranged in a staggered manner so that the stress channel is non-linear. When the panel 20 is stressed, the stress is dispersed and transmitted to the stress channel around each recess 12, and is utilized in each recess 12, 12, 12 , the upper cutting surface 13 is formed in an annular staggered manner toward the adjacent stress channel and each of the concave portions 12, 12, 12", as shown by point A in the figure, and the stress channel is adjacent to each of the concave portions 12, 12' The arrangement of 12" is irregular. When the stress at point A is transmitted outward, the stress is blocked by the cut surface 121 and the curved surface 122 of the adjacent concave portion 12, 12, 12", and cannot be transmitted straight, avoiding For the second preferred embodiment of the present invention, please refer to FIG. 6. In this embodiment, the arrangement of the recesses 12, 12, 12" is the first preferred. The embodiment is substantially the same, and only one side of the bottom of the support body 1〇 is formed Preparation rear opening 15 is still laying on the floor frame is completed, the various lines can be Use extend upwardly from the bottom surface of the raised floor, to connect to various devices required. It can be seen from the above that 'the recesses 1 2, 1 2, 1 2, which are different in number of sections are arranged in a meandering manner, so that the cut surfaces are respectively directed toward the adjacent stress channels' to block the stress transmission and avoid The problem of floor deformation damage. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1. A bottom view of a first preferred embodiment of the present invention. Figure 2. An exploded view of a first preferred embodiment of the present invention. Figure 3 is a plan view of a first preferred embodiment of the present invention. Figure 4 is a cross-sectional view showing a first preferred embodiment of the present invention. M423136 Fig. 5 is a stress distribution diagram of the first preferred embodiment of the present invention. Figure 6 is a plan view showing a second preferred embodiment of the present invention. [Main component symbol description] 10 support body 11 annular rib 12, 12', 12" concave portion 121 cut surface 122 curved surface 15 outlet port 20 panel 14 struts 21 perforation