M308.321 八、新型說明: : 【新型所屬之技術領域】 - 本創作係—種防火門嶋材組合結構,主要指—種可具較佳 強度及隔熱性,並可具較佳成品穩定性。 【先前技術】 防火門在魏賴安全的現代社會巾骑遍受視及採用,且 現代防火Η設計更著重於防火Η之防火隔熱性、抗曲折變形度提 • 升,使得防火門體可符合防火標準要求,而如附件CNSlim^築 用防火門耐火試驗法即具國内30 A、B; 6〇 A、B; 12〇 a、b等級 防火門之相關規定,並針對1小時加熱6〇A種防火門之規定須於門 體一侧加熱1小時,且溫度達925。〇時其門體另一侧由其測點(如 附件圖五)所測得溫度不高於26〇°c,並門體之變形度不得超過設 定曲度以防止外界火苗由變形之間隙滲入門體内,且必須經由衝 擊試驗時未產生貫穿裂縫或未鬆開始能合於規定。 肇 省知防火門為增進其防火隔熱性及強度,主要係於門體之二 門板間設置内襯材,並於内襯材設置隔熱材隔熱,並設置補強框 架以增進内襯材強度,如第九圖所示者即為習知防火門結構之 一’主要於二門板1,、2,間設置内襯材3,,並該内襯材3,具隔熱材 31、補強框32’,其中該隔熱材31,(如防火泡棉、矽酸鈣板、石膏 板· ··等)係配合其防火要求條件(如加熱時間、背溫)設置適 當厚度’並對應各補強框32,間距裁切成若干塊體;又補強框32, 係呈C型體’並設於二門板丨,、2,間,並呈適當間距排列,使組 5 M308321 裝時各隔熱材31’-端可設於〔型補強框32,内,並組設於二補強 框32’間,使得可藉由隔熱材31,隔熱,並藉由補強框犯,增進門體 之強度及抗衝擊性。 然而實務上因裁切隔熱材31,具有精度誤差,造成隔熱材31, 與補強框32,間仍具有長條形間隙a情形,並造成熱源(如圖式單箭 頭)將由該間隙a毫無阻隔的「輻射」至另一侧門板2,,造成隔熱 性及成品穩定性不佳缺失,又該隔紐31,之厚度係配合補強框 32设置’因而當欲製造較高隔熱性防火門體(如雄防火門)時該 隔熱材31之厚賴配合加大,並觀錢,寬度亦綱時配合加 大情形,又當僅需製造較低隔熱性防火門(如6種防火門)時該隔 熱材31’厚度及觀框32,寬度冑織少,造成備料不便情形。 又該隔熱材31,與門板1,、2,間具間隙(如圖式b),造成該間隙b 位置產生空洞不紮實情形,並經衝擊後易具較大凹陷影響防火門 安全性缺失。 【新型内容】 本創作之目的在提供一種可具較佳強度係及隔熱性之防火門 内襯材,並可具較佳成品穩定性。 本創作之防火門内襯材包含隔熱材、數補強板,並該隔熱材 係對應防火門隔熱要求具適當厚度,並約對應門體之長、寬設置, 又於熱材之環周上、下、左、右側中央位置内凹設置嵌槽,並 各相鄰側之嵌槽互為連通;又於隔熱材之前、後侧分_凹設置 欣槽,並則、後側嵌槽係與前述環周嵌槽連通;又補強板之寬度 M308321 及厚度約對應前舰槽寬度及深度,並可錄於前述㈣内,且 7各補強板相接舒以焊接騎,使得組合後觀板可包覆隔熱 材以增進内襯材之強度’並該内襯材為完整之塊體,可具較佳隔 熱穩定性,又該内襯表面為平整型態,因而與門板接合可更為紮 實,可具較佳抗衝繫性。 又本創作隔熱材之嵌槽可設於表面適當位置,並補強板可呈 轉折環繞隔熱材並嵌置於嵌槽内,並於補強板兩端固接。 【實施方式】 睛苓閱第一〜四圖,本創作第一實施例之防火門内襯材(包 含隔熱材11、數補強板12,並該隔熱板丨丨係可由防火泡棉、石 貧板、矽酸鈣板· ··等防火材料製造之塊體,並對應防火門隔 熱要求具適當厚度(如加熱時間、A種、β種防火門之不同條件), 並約對應門體之長、寬設置,又於隔熱材u之環周上、下、左、 右侧中央位置由成型、切削或其他適當方式内凹設置嵌槽111,並 各相郝側之肷槽111互為連通;又於隔熱材11之前、後侧分別内 凹设置嵌槽112,並前、後側嵌槽112係與前述環周嵌槽ill連通。 補強板12係為金屬或其較佳強度材質製造,並寬度及厚度約 對應前述嵌槽111、112寬度及深度,並可嵌置於前述嵌槽ηι、 112内,且令各補強板12相接處予以焊接固結(如第四圖較黑線位 置)。 本創作組合後補強板12可呈環狀完全包覆隔熱材u以增進 内襯材1之強度,並該隔熱材11為「完整之塊體」,不會產生間 M308321 隙,因而可具較佳隔熱穩定性。 請參閱第五圖’本創作内襯材1為表面平整型態,因而盘門 -板2、3接合可更為紮實,可具較佳抗衝繫性,而該門板2、3可 由防錄4或其他射方式與内姆丨接合,並該防火膠*可提 供門板2、3與内襯材1間具防火隔熱性。 此外前述補強板12亦可由其他方式互為接合,例如可由接合 元件或黏合固接,又各補強板12之端部接觸面積小,因而導熱面 _ 小,並使内襯材1可保有其設定隔熱性。 請參閱第六圖,本創作第二實施例之内襯材5對應前述内概 材1設置隔熱材5卜補強板52、_板53,並隔熱材51之環周 及前、後側分別設置可同時嵌置補強板52、隔熱板53之叙槽5ιι、 512,又補強板52、隔熱板53係内、外疊置嵌置於前述嵌槽5U、 512内,並使隔熱板53位於外側,且各相接補強板52係予以固接, 又該内襯材5接合門板2、3,使得組合後可具更佳隔熱性功效。 # 請參閱第七、八圖,本創作之第三實施例内襯材6之隔熱材 61具環形狀嵌槽611 ’並補強板62可轉折,並設於嵌槽βΐι内再 於端部固結(如第八圖較黑線位置),使得該内襯材6亦可具有本 創作訴求功效,又該内襯材6亦可對應前述内襯材5設置補強板 (圖中未標示)。 是以由以上所述,本創作不須裁切隔熱材設計可大幅提升防 火門之隔熱穩定性,並製造不同隔熱等級之防火門時可藉由改變 隔熱材厚度即可達成不同隔熱等級,可大幅提升製造穩定性、製 8 M308321 造便利性及成品「-致性」,又本創作藉由補強板呈雜包覆與隔 熱材結合,可大幅提升_材之整體強度,且摘物合後可較 平整,可提升Η體抗衝性功效,_本創作應可較f知產品呈較 佳功效’並前述實施為賴作之例示,鱗同轉為本創作 申請專利範圍之限制。 附件·· CNS11227建築防火門耐火試驗法。 【圖式簡單說明】 第-圖係本創作第-實施例之内襯材立體分解示意圖。 第二圖係本_第-實施例之峨材立·合立體示意圖。 第三圖係本創作第-實施例對應第二圖A_A剖視示意圖。 第四圖係本創作第一實施例對應第二圖B_B剖視示意圖。 第五圖係本創作第—實施例之峨材朗板組合示意圖。 第六圖係本創作之第二實施例内襯材與門板組合結構剖視示 意圖。 第七圖係本創作之第三實施例内襯材分解示意圖。 第八圖係本創作之第三實施例内襯材組合剖視示意圖。 第九圖係習知防火Η結翻視示意圖。 【主要元件符號說明】 1内襯材 η隔熱材 111嵌槽 112嵌槽 12補強板 2門板 3門板 4防火門 5内襯材 51隔熱材 511嵌槽 512嵌槽 52補強板 M308321 53隔熱板 6内襯材 Γ門板 32’補強框 61隔熱材 2’門板 611嵌槽 3’内襯材 62補強板 31’隔熱材M308.321 VIII. New description: : [New technical field] - This creative department is a kind of fire door slab composite structure, which mainly refers to the kind of better strength and heat insulation, and can be better stabilized. Sex. [Prior Art] Fire doors are widely used in the modern social towel of Wei Lai, and the modern fireproof design is more focused on the fireproof and heat insulation of the fireproof and the deformation resistance of the zigzag, so that the fire door can be Meet the requirements of fire protection standards, and such as the CNSlim^ fire door fire test method with the domestic 30 A, B; 6〇A, B; 12〇a, b fire door related regulations, and for 1 hour heating 6 〇A type of fire door shall be heated on the side of the door for 1 hour and the temperature shall be 925. When the other side of the door body is measured by its measuring point (such as Figure 5 in the attached figure), the temperature measured is not higher than 26 ° ° C, and the deformation of the door body shall not exceed the set curvature to prevent the external flame from seeping through the gap of the deformation. In the body of the entry, it is necessary to pass through the crack during the impact test or to start to meet the requirements. In order to improve the fireproof and heat insulation and strength, the fire door is mainly provided with lining material between the two door panels of the door body, and heat insulation is provided on the inner lining material, and a reinforcing frame is provided to enhance the inner lining material. The strength, as shown in the ninth figure, is one of the conventional fire door structures. The main lining material 3 is disposed between the two door panels 1, 2, and the inner lining material 3 is provided with heat insulating material 31 and reinforcement. Box 32', wherein the heat insulating material 31, (such as fireproof foam, calcium silicate board, gypsum board, etc.) is matched with the fireproof requirements (such as heating time, back temperature) to set appropriate thickness 'and corresponding to each The reinforcing frame 32 is cut into a plurality of blocks; the reinforcing frame 32 is formed as a C-shaped body and is arranged in the two door plates, 2, and at an appropriate interval, so that the heat insulation of the group 5 M308321 is installed. The material 31'-end can be disposed in the [type reinforcing frame 32, and is disposed between the two reinforcing frames 32', so that the heat insulating material 31 can be used for heat insulation, and the door body can be enhanced by reinforcing the frame. Strength and impact resistance. However, in practice, due to the cutting of the heat insulating material 31, there is a precision error, and the heat insulating material 31 and the reinforcing frame 32 still have a long gap a, and the heat source (such as a single arrow) will be caused by the gap a. Unobstructed "radiation" to the other side door panel 2, resulting in a lack of insulation and poor stability of the finished product, and the thickness of the partition 31 is matched with the reinforcing frame 32. When the fire door body (such as the male fire door), the thickness of the heat insulation material 31 is increased, and the money is used, the width is also combined with the increase of the situation, and when only the lower heat insulation fire door is required (such as When the 6 kinds of fire doors are used, the thickness of the heat insulating material 31' and the frame 32 are small, and the width is less woven, which causes inconvenience in preparation of materials. Moreover, the heat insulating material 31 has a gap with the door panels 1, 2, (as shown in the figure b), causing a void in the position of the gap b to be unconsolidated, and it is easy to have a large depression after the impact, and the safety of the fire door is lacking. . [New content] The purpose of this creation is to provide a fire door lining material with better strength and heat insulation, and better stability of finished products. The lining material of the fire door of the present invention comprises a heat insulating material and a plurality of reinforcing plates, and the heat insulating material has a suitable thickness corresponding to the heat insulation requirement of the fire door, and corresponds to the length and width of the door body, and is also around the circumference of the hot material. The upper, lower, left and right central positions are concavely arranged with recessed grooves, and the adjacent grooves of the adjacent sides are connected with each other; and the front and rear sides of the heat insulating material are arranged to be recessed, and the rear side is embedded. It is connected with the circumferential groove of the ring; the width of the reinforcing plate M308321 and the thickness correspond to the width and depth of the front ship groove, and can be recorded in the above (4), and each of the reinforcing plates is connected by welding, so that the combination is rear view The plate can be coated with a heat insulating material to enhance the strength of the inner lining material, and the inner lining material is a complete block, which can have better heat insulation stability, and the inner lining surface is flat and thus can be joined with the door panel. It is more solid and has better impact resistance. The embedded groove of the creative heat insulating material can be disposed at a suitable position on the surface, and the reinforcing plate can be folded around the heat insulating material and embedded in the embedded groove, and fixed at both ends of the reinforcing plate. [Embodiment] The first aspect of the present invention, the fire lining material of the first embodiment of the present invention (including the heat insulating material 11, the number of reinforcing plates 12, and the heat insulating plate can be made of fireproof foam, stone) Poor board, calcium silicate board · ·· and other fire-resistant materials, and corresponding to the fire door insulation requirements with appropriate thickness (such as heating time, A, β different types of fire doors), and corresponding to the door The length and width are set, and the recessed groove 111 is concavely formed by molding, cutting or other suitable manner at the center of the circumference, the lower left, the right side of the heat insulating material u, and the groove 111 of each phase of the Hao side is mutually In order to communicate; a recess 112 is recessed in the front and rear sides of the heat insulating material 11, and the front and rear side recesses 112 are connected to the circumferential groove ill. The reinforcing plate 12 is made of metal or its preferred strength. The material is manufactured, and the width and thickness correspond to the width and depth of the aforementioned grooves 111 and 112, and can be embedded in the recesses ηι, 112, and the joints of the reinforcing plates 12 are welded and consolidated (such as the fourth figure). The position of the black line is longer.) After the creation of the combination, the reinforcing plate 12 can be completely covered with a heat-insulating material in a ring shape. The strength of the inner lining material 1 is entered, and the heat insulating material 11 is a "complete block", which does not produce a gap of M308321, so that it can have better heat insulation stability. Please refer to the fifth figure 'this creation inner lining material 1 is a flat surface type, so that the disc door-plates 2, 3 can be more solid and can have better impact resistance, and the door panels 2, 3 can be joined to the inner rim by anti-recording 4 or other means of shooting. The fireproof rubber* can provide fireproof and heat insulation between the door panels 2, 3 and the inner lining material 1. The reinforcing plate 12 can also be joined to each other by other means, for example, by engaging elements or adhesively fixing, and each reinforcing plate 12 The contact area of the end portion is small, so that the heat transfer surface _ is small, and the inner lining material 1 can maintain its set heat insulation. Referring to the sixth figure, the inner lining material 5 of the second embodiment of the present invention corresponds to the aforementioned inner material 1 The heat insulating material 5 is provided with a reinforcing plate 52 and a plate 53, and the ring circumference and the front and rear sides of the heat insulating material 51 are respectively provided with the reinforcing grooves 52 and the heat insulating plates 53 at the same time, and the reinforcing grooves 51 and 512 are reinforced. The plate 52 and the heat insulating plate 53 are embedded in the inner cavities 5U and 512, and the heat insulating plates 53 are located on the outer side. The strong plate 52 is fixed, and the inner lining material 5 joins the door panels 2, 3, so that the combination can have better heat insulation effect. # Please refer to the seventh and eighth figures, and the third embodiment of the present invention is lined. The heat insulating material 61 of the material 6 has a ring-shaped recessed groove 611' and the reinforcing plate 62 can be turned and disposed in the recessed groove βΐι and then consolidated at the end (as in the eighth line, the black line position), so that the inner lining material 6 can also have the effect of the creation appeal, and the inner lining material 6 can also be provided with a reinforcing plate (not shown) corresponding to the inner lining material 5. Therefore, according to the above, the creation does not need to cut the heat insulating material design. It can greatly improve the thermal insulation stability of fire doors, and can achieve different insulation levels by changing the thickness of insulation materials when manufacturing fire doors with different insulation levels, which can greatly improve the manufacturing stability and make 8 M308321 easy to manufacture. And the finished product "--", and this creation is combined with the heat-insulating material by the reinforcing plate, which can greatly improve the overall strength of the material, and the material can be flat after the object is combined, which can improve the impact resistance of the body. Efficacy, _ this creation should be better than f know the product' and the above implementation is an example of With scales into this creation to limit the scope of the application. Annex·· CNS11227 Fire Test Method for Building Fire Doors. BRIEF DESCRIPTION OF THE DRAWINGS The first drawing is a three-dimensional exploded view of the inner lining of the first embodiment of the present invention. The second drawing is a three-dimensional schematic view of the coffin of the present invention. The third figure is a schematic cross-sectional view of the first embodiment of the present invention corresponding to the second figure A_A. The fourth figure is a schematic cross-sectional view of the first embodiment of the present invention corresponding to the second figure B_B. The fifth figure is a schematic diagram of the coffin slab combination of the first embodiment of the present invention. Fig. 6 is a cross-sectional view showing the structure of the lining material and the door panel in the second embodiment of the present invention. The seventh drawing is a schematic exploded view of the lining material of the third embodiment of the present invention. Figure 8 is a schematic cross-sectional view showing the lining material of the third embodiment of the present invention. The ninth figure is a schematic view of a conventional fireproof knot. [Main component symbol description] 1 inner lining material η heat insulation material 111 slot 112 slot 12 reinforcement board 2 door panel 3 door panel 4 fire door 5 lining material 51 heat insulation material 511 slot 512 slot groove 52 reinforcement board M308321 53 Hot plate 6 lining material door plate 32' reinforcement frame 61 heat insulation material 2' door plate 611 groove 3' inner lining material 62 reinforcing plate 31' heat insulation material