201144656 六、發明說明: 【發明所屬之技術領域】 本發明有關於可攜式高壓氣體容器 壓氣體容器,其在受到^以關於可攜式高 、*又到_熱或大的外部衝擊 氣體之爆炸。 77方止容器内 【先前技術】 織綱,熱或大的 心 會爆炸的。例如,可攜式高壓氣體容器可包括可 攜式丁以體容ϋ,綠有像了織體之_液化石油氣體,复 =於可攜式氣體系列’或可包括頭髮發膠容器,其裝有做為推 劑之液化石油氣體,亦可包括氣霧容器,其可用來裝殺蟲劑。 如果使用中之可攜式高壓氣體容器受到高溫熱或大的外部衝 ,’則裝在可攜式高壓氣體容如之高壓氣_壓力會上升,使 得可攜式高壓氣體容器發生爆炸。尤其,移針之個者在使用 可攜式丁餘體雜且不遵守相駐全規卿。在此情況下,由 於受到過多的熱使得可攜式丁烧氣體容器可能發生爆炸,因而傷 害到可攜式丁錢體容H附近的人們。此外,在輸送或儲存可攜 式兩壓氣體容器時,若有火爆出,則可攜式高壓氣體容器可能會 爆炸’而造成生命與財產的損失與危害。若延遲滅火所需時間’ 則其損失與危害會相當嚴重。 此外,當可攜式高壓氣體容器被焚化時,由於殘留在可攜式 201144656 ,所以 高觀齡糾H可攜式高麵财料能會爆炸 必須非常小心麵可攜式高魏體容ϋ之焚化。 【發明内容】 本么明係用來解決先前技藝所發生之問題,本發明之— ^提供可攜式高壓氣體容器,其在受到高溫熱或大的外部衝擊 時,可防止裝於可攜式高壓氣體容器内之氣體的爆炸。 本發明之目的不受限於上面所述之目的。下 本技藝領域之一船衷埜Α 〇* 月了使在 之、 業人貝很快了解到本發明之上面所述及其它 為了達成上面之目的,依縣發明之—實關,本發明所提 狀可攜式高觀體容11包括—主體,其喊有高壓.氣體;一上 蓋構件’其具有齡體接合_來翻裝於主财之紐氣體之 闊錐口孔σ|5 ’其沿著上蓋構件上端之周圍且.彎進主體之内部; 及複數個抗爆構件,其徑向地形成於閥四周之錐口孔部内,其朝’ 向主體内部方向之厚度逐漸減小,且其含有—硬組成之材料,藉 此使抗爆構件在高壓氣體之壓力上升時可被㈣而防止主體之^ 炸。 、 依據本發明之例雜實關,主體設有凸緣,其可藉由二重接 合構件或三重接合構件喊設於上蓋構件之鉤部接合在—起,主 體與上蓋構制之雜接合強度大於抗爆齡之應力,當錐口孔 部變形時,討独開,储在主轉炸之前可打服爆構件來 排放高壓氣體。 201144656 依據本發明之例示性實施例,可攜式高壓氣體容器另含有一 底蓋構件,其位於上蓋構件之相反端且彎入主體内部而與主體連 接在一起。 依據本發明之例示性實施例,設於主體内之凸緣藉由二重接 合構件或二重接合構件分別與設於上蓋構件及底蓋構件之釣部接 合在-起’主體與上蓋構件間及主體與底歸件間之此種接合強 度大於抗爆構件之壓力’當錐口孔部變料,抗爆構件可被打開, 使得在主體爆炸之前,可打開抗爆構件而排放出高壓氣體。 依據本發明之例示性實闕,凸緣以u字形及反u字形連續 彎折二次’而靖以反U字形、U字形及反U字形連卿折三次, 使得凸緣與釣部緊密重疊在—起,且凸緣可抵住鉤部而被按壓, 藉此將凸緣與鉤部經由三重接合構件連接在一起。 依據本發明之例示性實施例,主體包括—聊,其位於主體 接合構件鄰近的-邊’其藉由三重接合構件接合在—起,其沿著 主體之外部朋而f人主體内,使得主體接合構件之外部周圍不 會超過主體其它構件之外部周圍。 依據本發明.雜實_,各抗爆齡與外岭氣接觸的 外表面與各抗爆構件内表面之—邊是弯曲的,内表面之一邊係緊 鄰於主體之_,且编觀體相觸。各抗爆構制表面之另 一邊是平的,内表面之另一邊係遠離主體之内壁。 依據本發明之例示性實施例,各抗爆構件具有相同之厚度, 該厚度係指各抗爆構件之外表面最低點與喊關之距離。該各 201144656 抗爆構件之外表面最低點與内表面間之厚度在〇 07mm到〇 〇9mm 之範圍。 依據本發明之例示性實施例,各抗爆構件之外表面塗覆一層 抗爆劑。 依據本發明之例示性實施例,當抗爆構件被打開時,在15 [MPa]之壓力下,抗爆構件可以15〇 [£/min]到25〇 [以爪匕]之流率 排放高壓氣體。 依據本發明之可献高壓容II,#紐誠大的外部衝 擊施加到可攜式高壓氣體容II時,裝於可攜式高壓氣體容器内之 氣體可被排放到外面,藉此防止可攜式高壓氣體容器之爆炸。 【實施方式】 兹將參考關來說明本發明例示性之實施例。在本發明之下 面說明中,為了能清楚表達本發明之目的,故將省略習知之功能 或結構。 圖1係-沿縱長方向切開的透視圖,絲顯示依據本發明之 -實施例的可攜式高壓氣體容器。圖2係—平關,用來顯示依 據本發明之-實施例的可攜式高壓氣體容器的上蓋構件。圖3係 -切面圖’用來示意_示域本㈣之—實關的可攜式高壓 氣體容器的上蓋構件。圖4係一放大的切面圖,顯示依據本發明 之-實施烟可攜式高錢财_抗爆構件及接合構件。圖5 係-放大的切面圖’顯示依據本發明之另一實施例的可攜式高壓 氣體容器的抗爆構件及接合構件。 201144656 如圖1到5所示’依據本發明之—實施例的可攜式高摩器體 容器,其包括一主體100、一上蓋構件2⑻、一錐口孔部3〇〇、及 一抗爆構件400。 主體100内裝有高壓氣體。一般上,主體1〇〇具有一圖柱形 結構’使得高Μ紐之>1力可明自地分佈在域1〇〇内。 上蓋構件200連接到主體100之上端,而一底蓋構件9〇〇接 合或一體成形到主體100之丁端。 主體100可與上蓋構件2〇〇 一體成形,或經由焊接與上蓋構 件2〇0接合在-起。當考慮高生產率及接合力量時,主體励最 好經由接合構件600與上蓋構件200接合在一起。詳細而言,將 主體励之凸緣610與上蓋構件200之鉤部63〇接合在—起較有 利。 在經由接合構件600將主體100與上蓋構件2〇〇接合在一起 的情況下,最好是使用二重接合構件或三重接 體漏與上蓋構件勘之間的結合強度。 亦即為了防止主體100在抗爆構件(後面將說明)變形之前會 破裂或脫離上蓋構件200,主體励與上蓋構件細之間的結合強 度必須設定大於引起抗爆構件變形的壓力。例如,若使抗爆 構件400變形所需之變形壓力設定為15紙,則使主體刚破裂 或使主體100脫離上蓋構件所需的爆炸壓力必須設定為Μ MPa或更大。 換句話說’為了妥當操作抗爆構件4〇〇,主體咖與上蓋構件 201144656 200之間的接合強度必須設定大於使錐口孔部3〇〇之變形而打開 抗爆構件_所需讀力。在輯形下,在上雜件雌主 體觸之前’抗爆構件4GG被打開’以排放主體觸内之高壓氣 體,藉此防止主體100之爆炸。 一,兴上盍構件200接合在—起 =紅種類,抗爆構件4⑽之故障機率 -重接合構件或三重接合構件。 固糾選擇 明如下(請參閱圖17到19)。 就此而言’有三個實驗例子說 實驗例1顯示依據本發 器’其爆裂麼力隨接合構 · 歹:的可攜式高壓氣體容 接合構件之種類—相=同而變的量⑽結果。空罐係依據 端,物造。称咖'线⑽T、底 果顯示於表1及圖17 +。、1力係以爆裂測試儀來量測。其結 表1201144656 VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to a portable high-pressure gas container pressurized gas container which is subjected to external impact gas with respect to portable high, * to _ heat or large explosion. 77 square stop container [Prior Art] Weaving, hot or big heart will explode. For example, the portable high-pressure gas container may include a portable body, a green liquefied petroleum gas like a woven body, a portable gas series, or may include a hair gelatin container, which is equipped with The liquefied petroleum gas as a pusher may also include an aerosol container which can be used to hold an insecticide. If the portable high-pressure gas container in use is subjected to high-temperature heat or a large external rush, the pressure of the high-pressure gas contained in the portable high-pressure gas will rise, causing the portable high-pressure gas container to explode. In particular, the person who moves the needle is using the portable body and does not comply with the resident regulations. In this case, the portable diced gas container may explode due to excessive heat, thereby injuring people near the portable D-capacity H. In addition, when a portable two-pressure gas container is transported or stored, if there is a fire, the portable high-pressure gas container may explode, causing loss of life and property. If the time required to extinguish the fire is delayed, then the loss and damage will be quite serious. In addition, when the portable high-pressure gas container is incinerated, because it remains in the portable 201144656, the high-viewing high-energy high-capacity material can explode. It must be very careful to carry the incineration of the portable high-powered body. SUMMARY OF THE INVENTION The present invention is directed to solving the problems of the prior art, and the present invention provides a portable high-pressure gas container that can be prevented from being carried in a portable state when subjected to high temperature heat or a large external impact. Explosion of gas in a high pressure gas container. The object of the present invention is not limited to the objects described above. One of the following areas of the art, the ship is in the wild, and the company has quickly learned about the above-mentioned invention and other objects in order to achieve the above objectives. The lift-up portable high-profile body 11 includes a body that shouts a high-pressure gas, and an upper cover member that has an age-gated joint _ to be flipped over the wide-cone hole σ|5 of the main gas Along the periphery of the upper end of the upper cover member and bent into the interior of the body; and a plurality of anti-explosive members radially formed in the tapered hole portion around the valve, the thickness of the body toward the inside of the body gradually decreases, and It contains a material of a hard composition, whereby the anti-explosion member can be prevented from being blown up by the (4) when the pressure of the high-pressure gas rises. According to the example of the present invention, the main body is provided with a flange, which can be joined to the hook portion of the upper cover member by the double joint member or the triple joint member, and the joint strength of the main body and the upper cover is combined. It is greater than the anti-explosion age stress. When the cone hole is deformed, it can be opened separately. Before the main rotation, it can be used to discharge the high-pressure gas. 201144656 In accordance with an exemplary embodiment of the present invention, the portable high pressure gas container further includes a bottom cover member that is located at an opposite end of the upper cover member and that is bent into the interior of the body to be coupled to the body. According to an exemplary embodiment of the present invention, the flange provided in the main body is respectively engaged with the fishing portion provided on the upper cover member and the bottom cover member by the double joint member or the double joint member, and between the main body and the upper cover member. And the joint strength between the main body and the bottom member is greater than the pressure of the anti-explosion member. When the taper hole portion is changed, the anti-explosion member can be opened, so that the anti-explosion member can be opened to discharge the high-pressure gas before the main body explodes. . According to an exemplary embodiment of the present invention, the flange is continuously bent twice in a U-shape and an anti-u-shape, and the U-shape, the U-shape, and the reverse U-shape are folded three times, so that the flange closely overlaps the fishing portion. At the same time, the flange can be pressed against the hook, thereby connecting the flange and the hook together via the triple joint member. According to an exemplary embodiment of the present invention, the body includes a chat, which is located adjacent to the side of the main body engaging member, which is engaged by the triple joint member, which is located inside the main body of the main body, so that the main body The outer circumference of the joint member does not exceed the outer circumference of the other members of the body. According to the present invention, the outer surface of each anti-explosive age contact with the outer blast gas and the inner surface of each anti-explosion member are curved, and one side of the inner surface is adjacent to the main body, and the body phase is edited. touch. The other side of each anti-explosive construction surface is flat, and the other side of the inner surface is away from the inner wall of the body. In accordance with an exemplary embodiment of the present invention, each of the anti-explosive members has the same thickness, which is the distance between the lowest point of the outer surface of each of the anti-explosive members and the shunt. The thickness between the lowest point and the inner surface of the outer surface of each of the 201144656 anti-explosive members is in the range of 〇 07mm to 〇 〇 9mm. According to an exemplary embodiment of the present invention, the outer surface of each of the anti-explosive members is coated with a layer of antiknock agent. According to an exemplary embodiment of the present invention, when the anti-explosion member is opened, the anti-explosion member can discharge a high pressure at a flow rate of 15 〇 [£/min] to 25 〇 [with a claw 匕] under a pressure of 15 [MPa]. gas. According to the present invention, the high pressure capacity II, #纽诚大 external impact is applied to the portable high pressure gas volume II, the gas contained in the portable high pressure gas container can be discharged to the outside, thereby preventing the portability Explosion of a high pressure gas container. [Embodiment] An illustrative embodiment of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, well-known functions or structures are omitted in order to clearly clarify the purpose of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a perspective view, cut away in the longitudinal direction, showing a portable high pressure gas container in accordance with an embodiment of the present invention. Figure 2 is a close-up showing the upper cover member of the portable high pressure gas container according to the embodiment of the present invention. Fig. 3 is a cross-sectional view showing the upper cover member of the portable high-pressure gas container of the present invention. Figure 4 is an enlarged cross-sectional view showing the implementation of the smoke-carrying high-energy blasting member and the engaging member in accordance with the present invention. Fig. 5 is an enlarged cross-sectional view showing the anti-explosion member and the joint member of the portable high-pressure gas container according to another embodiment of the present invention. 201144656 A portable high-alloy body container according to an embodiment of the present invention, as shown in FIGS. 1 to 5, comprising a main body 100, an upper cover member 2 (8), a conical hole portion 3, and an anti-explosion Member 400. The main body 100 is filled with a high pressure gas. In general, the body 1〇〇 has a cylindrical structure such that the height of the Μ 之 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 The upper cover member 200 is coupled to the upper end of the main body 100, and a bottom cover member 9 is joined or integrally formed to the butt end of the main body 100. The main body 100 may be integrally formed with the upper cover member 2'', or may be joined to the upper cover member 2'0 via welding. When considering high productivity and joint strength, the main body excitation is preferably joined to the upper cover member 200 via the joint member 600. In detail, it is advantageous to engage the main body-strengthened flange 610 with the hook portion 63 of the upper cover member 200. In the case where the main body 100 and the upper cover member 2 are joined together via the joint member 600, it is preferable to use the joint strength between the double joint member or the triple joint leak and the upper cover member. That is, in order to prevent the main body 100 from being broken or detached from the upper cover member 200 before the anti-explosion member (which will be described later) is deformed, the joint strength between the main body and the upper cover member must be set to be larger than the pressure causing the deformation of the anti-explosion member. For example, if the deformation pressure required to deform the anti-explosion member 400 is set to 15 sheets, the explosion pressure required to cause the main body to be broken or the main body 100 to be detached from the upper cover member must be set to Μ MPa or more. In other words, in order to properly operate the anti-explosion member 4, the joint strength between the main body coffee and the upper cover member 201144656 200 must be set larger than the deformation required to open the anti-explosion member. In the shape, the anti-explosion member 4GG is opened before the upper body member touches to discharge the high-pressure gas in the body, thereby preventing the explosion of the body 100. First, the upper member 200 is joined to the red type, and the failure probability of the anti-explosion member 4 (10) is a heavy engagement member or a triple engagement member. The solid correction options are as follows (see Figures 17 through 19). In this regard, there are three experimental examples in which the experimental example 1 shows the result of the amount (phase) of the portable high-pressure gas-capacity joining member according to the type of the collapsing force of the present invention. The empty can is based on the end and the material. The coffee line '10' is shown in Table 1 and Figure 17+. 1 force is measured by a burst tester. Its conclusion
9 201144656 例5 21.8 18.6 例6 21.6 18.4 例7 21.7 19.3 例8 21.2 19.4 例9 22.2 19.1 例10 21.9 18.8 結果 21.2-22.2 kg/c^f 18.4-19.4 kg/crrf 由表1及圖17可了解到,當主體100與上蓋構件200以三重 構件接合時,可得到較高的罐的爆裂壓力。 <實驗例2> 與實驗例1相比較,實驗例2顯示依據本發明之一實施例的 可攜式高壓氣體容器,其變形壓力隨接合構件之不同而變的量測 結果。變形壓力係在相同的條件下量測,其結果顯示於表2及圖 18中。 表2 接合種類 三重接合構件 二重接合構件 變形壓力 15.3-16.4 kg/cfrf 15.3-16.4 kg/ctf 爆裂壓力 21.2-22.2 kg/cnf 18.4-19.4 kg/cfif 10 201144656 由表2及圖18可以了解到,當主體刚與上蓋構件以三 重接合構件接合時’可制較高__觀力,但其變形壓力 則沒有太大的不同。此意謂著,縱使主體卿與上蓋構件以 二重接合構合,對於抗爆構件_之運倾無大的影響。 <實驗例3> 實驗例3顯示依據本發明之—實施例的可攜式高壓氣 其依存留氣體的量猶接合構件之不同而變的操作 式結果。_吨含在軸之氣體衫同的縣 進罐内,以檢測罐之操作概率。其結果§ *火焰引 衣頌不於表3及圖19中。 表3 接合種類 '—_____ l〇°/〇(22g) ____ 2〇%(44g) --------- 3〇%(66g) 4〇%(88g) 三重接合 lOea/lOea lOea/lOea lOea/lOea lOea/lOea 重接合 8ea/10ea — - 6ea/10ea 8ea/10ea 9ea/10ea 5〇%(ll〇g) lOea/lOea 9ea/10ea 6〇%(132g) -------- 7〇%(154g) lOea/lOea lOea/lOea lOea/lOea lOea/lOea 201144656 80%(176g) 10ea/10ea lOea/lOea 90%(298g) 10ea/10ea lOea/lOea 100%(220g) 10ea/10ea lOea/lOea 結果 100ea/100ea 90ea/100ea (操作概率) (100%) (90%) 由表3及圖19可以了解到,與罐填滿氣體相比較,在罐充填 腦到30%之氣科,具有二重接合構件的罐比具有三重接合構 件的罐較不利。 旦換句話說’與罐内填滿氣體相比較,若減少罐内留存氣體的 里則罐之内部壓力在向溫情況下會迅速上升,使得變形瞬間開 始:因此,上蓋構件200之釣部㈣及主體觸之凸緣㈣不能 抵抗變形’ m蓋構件脫魅體觸,而導致罐之爆裂。 u述可知,若需要較高的爆㈣力或敎性,齡體⑽ ” 7件細以三重接合構件比以二重接合構絲接合較有利。 200 λ: ° ’為了以二重接合構件來接合主體100與上蓋構件 需以反=需以U字形及反U字形相繼弯折二次,而鉤細 鉤部㈣I重Γ㈣及反U字形相_折三次’使得凸緣610與 構件㈣。 ⑽⑽壓抵鉤箱,藉此形成接合 參閱圖12’切料了解形錢件_之方法。圖12 12 201144656 係-切面圖’絲意地顯雜據本發明之—實施例的可攜式高壓 氣體容器中接合構件的製造過程。 詳細而言,如圖12之所示,鉤部630係由延伸部62〇之末端 向下彎成-弧形。延伸部620由上蓋構件之邊緣水平延伸, 錐口孔部·位於上蓋構件200。因為鉤部63〇為弧形,故其受到 接合捲具720、730及740之壓捲時,鉤部63〇可被捲曲。 然後,主體100之一端邊被彎曲形成凸緣61〇。此時,凸緣 61〇可被向上彎斜。在此情況下,凸緣_之端部緊密連貼在延伸 部600之底表面’所以當凸緣61〇與鉤部63〇 一齊向上彎捲時, 凸緣610之端部不會脫離延伸部62〇。 之後,凸緣610連貼在延伸部620之底表面,使得凸緣61〇 之端部緊密連貼在鉤部63〇 ’藉此,將上蓋構件與主體1〇〇 接合在一起。此外,一接合卡盤被安置在上蓋構件2〇〇之錐口孔 部300内。 接合卡盤710被插入由上蓋構件200延伸的錐口孔部3〇〇内, 以便在接合捲具720、730及740按壓主體1〇〇時,可使主體1〇〇 能承受接合捲具700、730及740之按壓力量。 當接合卡盤710經由上述方法被插入上蓋構件2〇〇時,鉤部 630可抵住接合卡盤71〇而被第一接合捲具72〇壓捲。此時,凸緣 610連貼在鉤部630上。當鉤部630抵住接合卡盤71〇而被第一接 合捲具720壓捲時,鉤部630連同凸緣61〇可首次被壓捲。因為 釣4 630被向下弯成弧形而在第一接合捲具wo之内部有一引導 13 201144656 的彎曲表面可將鉤部彎捲。 因此’凸緣610首次與鉤部630接合,同時與鉤部63〇 一齊 被彎捲。在此情況下,凸緣610及鉤部630再次被第二接合捲具 730壓捲。因為第一接合捲具730在其内部有一引導的寶曲表面, 其大於第一接合捲具720的引導彎曲表面,所以已被首次壓捲過 之鉤部630可再次被壓捲。詳細而言,已被第一接合捲具72〇壓 捲過之鉤部630,可再次被第二接合捲具73〇壓捲,使得鉤部63() 與凸緣610有三重的重疊。 然後’已經由上述方法做二次接合之後的鉤部63〇及凸緣61〇 可被第二接合捲具740壓捲。對於已被壓捲在一起且彼此重疊三 次的鉤部及凸緣61G而言’若其被第三接合捲具壓捲,則鉤 部630可抵住凸緣61〇而被捲壓,使得鉤部可以牢固地與凸緣 接合在一起,藉此,形成三重接合構件。亦即,三重接合構件可 使凸緣610與鉤部630牢固地接合在一起,其中,凸緣61〇連續 地以U予形及反U字形被彎曲二次,而鉤部63〇連續地以反U字 形、U字形及反IJ字形被彎曲三次。· 然而,若主體100與上蓋構件2⑻藉由三重接合構件接合在 起,則最好在主體1〇〇上形成一頸部800,使得接合部之外圓周 不會超過主體100其它部份之外圓周。 詳細而言,依據本發明之可攜式高壓氣體容器,其主體100 與上蓋構件200藉由三重接合構件接合在一起,因為頸部_形 成在主體100上’故能滿足國際標準規範而可使用於依國際標準 201144656 規範製做的各種不同之I置上(例如,可攜式氣體系列)。 頸部800在被彎入主體100時形成於主體100之-邊,其鄰 接主體1〇〇外圓周之接合部議。頸部麵之彎曲程度,被設 片成使接合部600之最外面圓周相同於主體1〇〇之圓周。 顯然沒有顯示於圖示中,三重接合構件可有利地被應用於主 _ 0 〇底蓋溝件900之間的接合,就如同主體1〇〇與上蓋構件 2〇〇之間的接合-樣。為了避免重複,在此省略其詳細說明。 同時,在連接於主體1〇〇上端之上蓋構件2〇〇的中心設有一 閥加’用來在需要時可將充填於主體觸内之高壓氣體排放到外 面。 *閥210之種類可依充填於主體1〇〇内之高壓氣體的種類而 疋。閥21G可以有各種不同的形狀或外貌’只要其在需要時,可 將充填於主體100内之高壓氣體排放到外面即可。 此外’在上蓋構件2〇〇上端周圍設有錐口孔部3〇〇。下面將詳 細說明錐口孔部3〇〇。 錐口孔部300彎入主體100内且在上蓋構件200之上端。當 主=100與上蓋構件細藉由像二重接合方法或三重接合方法之 接合方法接合在-起時,錐口孔部3⑻被形成於上蓋構件勘上。 此外,除了上述之外,軸很少發生,若主體觸與上蓋構 件200藉由#接合方法接合在一起,則雜口孔部沿著上蓋 構件朋之上端圓周形成,使得抗爆構件能形成赴蓋構件 15 201144656 其中’抗爆構件·可純含於域⑽内之高壓氣體排放 到外面,以防止主體的爆炸。主體觸之爆炸的意思不僅是主 體之爆裂,也包括連接在主體膽之上蓋構件勘或底蓋構件_ 的爆破或是脫離主體100。 複數個抗爆構件400可徑向地形成在上蓋構件2〇〇中心處之 閥2K)附近的錐口孔部3〇〇内。詳細而言,抗爆構件·彼此以 規則間隔地分開設置於錐口孔部3⑽内。 會偏向某特別方向 規則間隔的意思是___間隔。若抗爆構件以相 同間隔或等__,職排放高敎_,可防止抗爆構件_ 此外’抗爆構件具有之厚度在朝向主體卿之内部要逐 漸減小’且具有堅硬組成之材料,使得在縫氣體之壓力上升= 要爆炸之前,能打開抗爆構件獅。為此目的,在料 件400與外面空氣接觸之外表面41〇可由錐口孔部之夕^ 延伸^來’而抗爆構件400與高壓氣體接觸之内表面_要平面 其間,圖6到n顯示形成抗爆構件4〇〇之過程。 圖6是一放大的切面圖,顯示出圖3所示“A” 構件400 -从法, °卩伤在形成抗爆 立 情形。圖7是一放大的切面圖,顯示出圖3所亍“A” 部份有刻痕形成於可攜式高壓氣體容器上做為抗爆構件 形:圖8是-域圖,顯示在依據本發明之—實施例的= 壓氣體谷器上形成抗爆構件400之製造過程。圖9是一切门 顯不由圖8所狄触所製造的抗賴件4 面圖’ 疋一切面圖, 201144656 顯不依據本翻之另—實施_可赋高魏财器,其抗爆構 件400的製造過程。圖11是一切面圖,顯示依據本發明之另_:實 施例如圖1G所示之過程所製造的抗爆構件400。 、為了製ie抗爆構件4〇〇,如圖6所示之錐口孔部,其内表 面被设置於如圖8所示之框架獨的水平支撑部51G上,其構成 抗爆構件侧。而錐口孔部·之外表面則被按壓部520所按壓, 該按壓部52G具有對應於錐口孔部之外表面的料形狀。因 此,做為抗爆構件400之錐口孔部之地方具有-較薄的厚度 及一堅硬的組成。 同時’為了使抗爆構件400具有一較薄的厚度及一堅硬的組 成’該抗爆構件400可具有各種不同的形狀,例如’如圖U之所 厂、抗爆構件400與外面空氣接觸的外表面彻及抗爆構件伽 緊鄰主體觸之内壁的内表面42〇之一邊可以是彎曲的而抗爆 構件働遠離主體應之内壁的内表自伽之其它邊可以是平的。 詳細而言,因為變形部(參看圖„之⑽在上述過程中之 變形會阻礙主體100及上蓋構件厕間之接合,所以緊鄰主體廳 之内壁的抗爆構件彻之内表面物之一邊不是平的。尤其,如 圖5之所示,若頸部誦被形成於主體灌内,則變形部沒看圖 η之戦會阻礙主體卿與上蓋構件删之間的接合所以修正 抗爆構件400是有益的。 為了修正抗爆構# 400 ’如圖10之所示,在構成抗爆構件彻 之錐口孔部300之内表面被設置於框架5〇〇之水平支撐部上 17 201144656 時,錐口孔部300之最低點對齊按壓部52〇之中心,且與支撐部 510之中心隔開一預定之距離。 其間,為了形成複數個等間隔的抗爆構件,4到2〇個長方形 的支撐部510徑向地設置在_基底巾傾近的_基底上(未顯 示)且4到20個按壓部52〇圓形地設置於支樓部51〇之對應位置 上。支擇部510及按壓部52㈣數目不限制為上述之數目,可依 據應用需要而有不同的數目。較佳地,抗爆構件彻之數目可考 慮向壓氣體排放到外面之流率來設定。 此外’因為抗爆構件400以等間隔地排列在錐口孔部内, 故抗爆構件働可具有—樣的厚度t,厚度t係抗爆構件彻之内 表面420與外表面41〇最低點間之距離。亦即,各抗爆構件棚 具有相同的厚度,使得在排放高體時,可防止抗爆構件400 會在某特別方向偏斜。 抗爆構件400之厚度t,其係抗爆構件之内表面42〇到外 表面最低點間之距離,其可考慮上蓋構件厕之材料來決定。 :如’抗爆構件伽之厚度可為__到_晒纷在此條 ^下,抗爆構件400可以容易地被打開而不會有太大的阻力。 =衫觀此勤上料麵^,卿成之 汗 可使主體100内之高屋氣體排放到外面。 為了在可獻高魏财器鱗之討槪高觀體,如圖7 可在錐口孔部300上形成刻痕S(葉片狀症)來達成。 不同於形成於依據本發明之可攜式高壓氣體容器上之抗爆構 201144656 件400,刻痕S可被撕裂而形成開口。因此,刻痕s必須有足夠 的深度,且必須位於正確的位置(圖6之“泸位置)上。 然而,若刻痕S做得太深,會形成意外的開口,使得使用者 在使用高壓氣體前,高壓氣體就會漏失掉。 此外’若刻痕S不在正確的位置上,則刻痕s之撕裂位置會 改變(參看® 6㈣,及“e”),使得高魏體_難S排放到外面 的量會不規則。所以在排放高壓氣體時,刻痕s會在某特別方向 上偏斜。 因此依據本發明之一實施例的可攜式高壓氣體容器,其抗 爆構件具有上述之構造,使得#高觀體之壓力上升時,抗 爆構件400可被打開以形成開口。 其間’在抗爆構件400之外表面410上可塗覆抗鋪43〇。在 可攜式高壓氣體容紐用於-些場合時,例如烹辦湯汁會潑賤 到抗爆構件_之外表面彻上,或是下雨時濕氣會沾附到抗爆 構件400之外表面上,該抗_獨可防止抗_件働之外表 面410受到腐蝕。 各種不同的材料可被用來當做抗钱劑43〇,只要它們能夠防止 抗爆構件400之腐蝕。例如,環氧樹脂可以3〇〇mg/l〇〇cm2到 350mg/100cm2之量塗覆在抗爆構件4〇〇之外表面41〇上。 較佳地,環氧樹脂在4號福特杯,巧它下要具有25到%秒 之黏度。此外,環氧樹脂係經由喷塗方法來塗覆且在2〇〇。(:到22〇 c間之溫度烘烤1分鐘。塗覆狀態及塗覆程度可被確認,這是有 19 201144656 益於品質管理的。 如此,由於抗触劑430被塗覆在抗爆構件_上,則可避免 因抗爆構件400之腐触而產生的意外的開口。 下面將參看圖η到16來說明依據本發明之一實施例的可攜 式高壓氣體容11 _作,圖13到I6係_抗爆構件之操作。 如圖13之所示’在高溫或大的外部力量施蝴可攜式高壓氣 體容器之前,主體励與上蓋構件勘經由接合構件連接在一起, 且抗爆構件設置於上蓋構件細之細孔部勘内。 在此情況下,如圖14之所示,若高溫熱或大的外部力量施加 到可攜式紐氣體容H上,則f人主體觸内之細孔部獨凸 起而變平,且抗爆構件_打開而形成孔隙,使得主體議内之 高壓氣體可被排出。 然後’如圖15之所不,錐口多丨郝織vs系丫 雄口孔邛300變得更平且形成在抗爆 構件400之孔隙具有開口 44〇之 ^ 一 π』叫之形狀,使得更多的高壓氣體被排 出。 最後’如圖15所示之可攜式高壓氣體容器具有如圖所示 之形狀。亦即,錐口孔部完全變平了,_ 口 在抗爆構 件4〇0上形成了,使得更多的高壓氣體可被排出。 由於抗爆構件400之開口,高觀體在15廳之壓力下,可 以15〇 [e/min]到25〇 [£/mm]之流率排出。因此依據本發明之可 攜式高魏體容器可滿足丁烧氣體容器之標準規範(流率:SO [口 /min]及空氣壓力:6kg/cm2)。 20 201144656 雖然’本發明之例示性實施例已被說明,但應了解到,本發 明不應被限制於這些例示性實施例。在本發明如後面所附之申1 專利範圍之精神與範圍内,本技藝領域之一般專業人員仍可對^ 發明有各種不同的改變與修正。 【圖式簡單說明】 圖1係-沿縱長方向切開之透姻,顯示依據本發明之—實 施例的可攜式高壓氣體容器; 圖2係-平面圖,顯示依據本發明之_實施例的可攜式高壓 氣體容器的上蓋構件; 一圖3係—杨圖,示意地顯示依據本發明之-實施例的可攜 式南壓氣體容器的上蓋構件; 一圖4係-放大的切面圖’顯示依據本發明之一實施例的 式兩壓氣體容器的抗爆構件及接合構件; 德^壓^放大的切關’顯示依據本發明之另一實施例的可 攜式回壓氣體容器的抗爆構件及接合構件; 形:::一’_ ”之,部份在抗爆構件 201144656 圖9係一切面圖,顯示依圖8所示之過程所製造的抗爆構件; 圖10係一切面圖,顯示依據本發明之另一實施例的可攜式高 壓氣體谷器的抗爆構件的製造過程; 圖11係-切賴,齡側1G所示之過賴製造的依據本 發明另一實施例的抗爆構件; 圖12係-切面圖,示意地顯示依據本發明之—實施例的高壓 氧體谷器的接合構件的製造過程; 圖13到16係切面圖’顯示依據本發明之一實施例的可攜式 高壓氣體容器的抗爆構件的操作; 圖17係-圖’顯不依據本發明之—實酬的可攜式高壓氣體 心器在不同翻的接合構件時的爆炸壓力的量測結果; 圖18係-圖’顯示依據本發明之—實關的可攜式高壓氣體 心器在不同麵的接合構件時_職力的量測結果; 圖I9係-圖’顯示依據本發明之一實施例的可攜式高壓氣體 容器在不__接合構件時其内存留之氣體的量對操作概率的 測試結果。 22 201144656 【主要元件符號說明】 主體100 水平支撐部510 上蓋構件200 按壓部520 閥210 接合構件600 錐口孔部300 凸緣610 抗爆構件400 延伸部620 外表面410 鉤部630 内表面420 接合捲具 700、720、730、740 抗蝕劑430 接合卡盤710 開口 440 頸部800 框架500 底蓋構件900 239 201144656 Example 5 21.8 18.6 Example 6 21.6 18.4 Example 7 21.7 19.3 Example 8 21.2 19.4 Example 9 22.2 19.1 Example 10 21.9 18.8 Result 21.2-22.2 kg/c^f 18.4-19.4 kg/crrf As can be seen from Table 1 and Figure 17. When the main body 100 and the upper cover member 200 are joined by the triple member, a higher burst pressure of the can is obtained. <Experimental Example 2> Experimental Example 2 shows a measurement result of a deformation pressure of a portable high-pressure gas container according to an embodiment of the present invention as a function of the joint member, as compared with Experimental Example 1. The deformation pressure was measured under the same conditions, and the results are shown in Table 2 and Figure 18. Table 2 Joint type Triple joint member Double joint member Deformation pressure 15.3-16.4 kg/cfrf 15.3-16.4 kg/ctf Burst pressure 21.2-22.2 kg/cnf 18.4-19.4 kg/cfif 10 201144656 It can be seen from Table 2 and Figure 18. When the main body is just engaged with the upper cover member by the triple joint member, it can be made higher, but the deformation pressure is not much different. This means that even if the main body and the upper cover member are combined in a double joint, there is no significant influence on the anti-explosion member. <Experimental Example 3> Experimental Example 3 shows an operational result of the portable high-pressure gas according to the embodiment of the present invention depending on the amount of retained gas. _ ton is contained in the same county as the gas jacket of the shaft to detect the operation probability of the tank. The result § *flame clothing is not shown in Table 3 and Figure 19. Table 3 Joint type '-_____ l〇°/〇(22g) ____ 2〇%(44g) --------- 3〇%(66g) 4〇%(88g) Triple bond lOea/lOea lOea/ lOea lOea/lOea lOea/lOea Heavy joint 8ea/10ea — - 6ea/10ea 8ea/10ea 9ea/10ea 5〇%(ll〇g) lOea/lOea 9ea/10ea 6〇%(132g) ------- - 7〇%(154g) lOea/lOea lOea/lOea lOea/lOea lOea/lOea 201144656 80%(176g) 10ea/10ea lOea/lOea 90%(298g) 10ea/10ea lOea/lOea 100%(220g) 10ea/10ea lOea/lOea Results 100ea/100ea 90ea/100ea (Probability of Operation) (100%) (90%) As can be seen from Table 3 and Figure 19, the tank is filled with 30% of the gas in the tank compared with the tank filled with gas. A can having a double joint member is disadvantageous than a can having a triple joint member. In other words, 'in comparison with the filling of the gas in the tank, if the gas remaining in the tank is reduced, the internal pressure of the tank will rise rapidly in the case of warming, so that the deformation starts instantaneously: therefore, the fishing part of the upper cover member 200 (4) And the flange of the main body touch (four) can not resist the deformation 'm cover member de-feeling body touch, resulting in the burst of the can. u, it can be seen that if a higher explosive force is required, the age body (10) ” is better to use a triple joint member than a double joint wire. 200 λ: ° 'To use a double joint member The joint body 100 and the upper cover member need to be bent twice in the U-shape and the reverse U-shape, and the hook-shaped hook portion (four) I-heavy (four) and the reverse U-shaped phase-fold three times to make the flange 610 and the member (four). (10) (10) Pressing against the hook box, thereby forming a joint with reference to Figure 12, the method of understanding the shape of the money piece. Figure 12 12 201144656 Series - cut-away view 'silently showing the portable high pressure gas container according to the present invention - embodiment In the manufacturing process of the intermediate joint member, in detail, as shown in Fig. 12, the hook portion 630 is bent downward-arc-shaped by the end of the extending portion 62. The extending portion 620 is horizontally extended by the edge of the upper cover member, the taper The hole portion is located in the upper cover member 200. Since the hook portion 63 is curved, when it is pressed by the bonding reels 720, 730, and 740, the hook portion 63 can be curled. Then, one end side of the main body 100 is bent The flange 61 is formed. At this time, the flange 61〇 can be bent upward. In this case The end portion of the flange _ is closely attached to the bottom surface of the extending portion 600. Therefore, when the flange 61 is bent upward together with the hook portion 63, the end portion of the flange 610 does not come off the extending portion 62. Thereafter, the flange 610 is attached to the bottom surface of the extending portion 620 such that the end portion of the flange 61 is closely attached to the hook portion 63' to thereby engage the upper cover member with the main body 1 。. The engaging chuck is disposed in the taper hole portion 300 of the upper cover member 2. The engaging chuck 710 is inserted into the taper hole portion 3 of the upper cover member 200 so as to engage the reels 720, 730, and 740. When the main body 1 is pressed, the main body 1 can be subjected to the pressing force of the engaging reels 700, 730, and 740. When the engaging chuck 710 is inserted into the upper cover member 2 by the above method, the hook portion 630 can be pressed against The engaging chuck 71 is engaged by the first engaging reel 72. At this time, the flange 610 is attached to the hook portion 630. When the hook portion 630 is pressed against the engaging chuck 71, the first engaging reel 720 is engaged. When crimping, the hook 630, together with the flange 61, can be crimped for the first time. Because the fishing 4 630 is bent down into an arc at the first joint A curved surface having a guide 13 201144656 inside the wo can bend the hook. Thus the 'flange 610 is first engaged with the hook 630 while being bent together with the hook 63. In this case, the flange 610 And the hook portion 630 is again crimped by the second joining reel 730. Since the first engaging reel 730 has a guiding curved surface inside thereof which is larger than the guiding curved surface of the first engaging reel 720, it has been pressed for the first time. The rolled hook portion 630 can be crimped again. In detail, the hook portion 630 that has been rolled up by the first engaging reel 72 can be again rolled by the second engaging reel 73 so that the hook portion 63 () has a triple overlap with the flange 610. Then, the hook portion 63 and the flange 61A which have been subjected to the secondary joining by the above method can be crimped by the second joining reel 740. For the hook portion and the flange 61G which have been crimped together and overlap each other three times, 'if it is pressed by the third joining reel, the hook portion 630 can be crimped against the flange 61〇, so that the hook The portion can be securely joined to the flange, thereby forming a triple joint member. That is, the triple joint member can securely engage the flange 610 with the hook portion 630, wherein the flange 61〇 is continuously bent twice in a U-preform and an inverted U-shape, and the hook portion 63〇 is continuously The anti-U-shape, the U-shape, and the anti-IJ shape are bent three times. · However, if the main body 100 and the upper cover member 2 (8) are joined by the triple joint member, it is preferable to form a neck portion 800 on the main body 1 so that the outer circumference of the joint portion does not exceed the other portions of the main body 100. circumference. In detail, according to the portable high-pressure gas container of the present invention, the main body 100 and the upper cover member 200 are joined together by the triple joint member, because the neck portion is formed on the main body 100, so that it can be used in accordance with international standard specifications. Various I-made in accordance with the international standard 201144656 (for example, portable gas series). The neck portion 800 is formed on the side of the main body 100 when it is bent into the main body 100, and is adjacent to the joint portion of the outer circumference of the main body 1 . The degree of bending of the neck surface is set such that the outermost circumference of the joint portion 600 is the same as the circumference of the main body 1〇〇. It is apparent that not shown in the drawings, the triple joint member can be advantageously applied to the joint between the main sill cover groove members 900, just like the joint between the main body 1 〇〇 and the upper cover member 2 。. In order to avoid repetition, a detailed description thereof will be omitted herein. At the same time, a valve plus ' is provided at the center of the upper cover member 2'' connected to the upper end of the main body 1 to discharge the high-pressure gas filled in the main body contact to the outside when necessary. * The type of the valve 210 can be determined by the type of high-pressure gas charged in the main body 1〇〇. The valve 21G may have various shapes or appearances as long as it can discharge the high-pressure gas filled in the main body 100 to the outside as needed. Further, a tapered hole portion 3 is provided around the upper end of the upper cover member 2''. The taper hole portion 3〇〇 will be described in detail below. The tapered hole portion 300 is bent into the main body 100 and is at the upper end of the upper cover member 200. When the main = 100 is joined to the upper cover member by a joining method such as a double joining method or a triple joining method, the taper hole portion 3 (8) is formed on the upper cover member. Further, in addition to the above, the shaft rarely occurs, and if the main body is brought into contact with the upper cover member 200 by the #joining method, the stray hole portion is formed along the upper end circumference of the upper cover member, so that the anti-explosion member can be formed into the cover. Member 15 201144656 wherein 'anti-explosive member · high pressure gas which can be purely contained in the domain (10) is discharged to the outside to prevent explosion of the body. The explosion of the subject touches not only the burst of the main body, but also the blasting of the cover member or the bottom cover member _ attached to the main body biliary or the detachment from the main body 100. A plurality of anti-explosive members 400 may be radially formed in the tapered hole portions 3 in the vicinity of the valve 2K) at the center of the upper cover member 2''. Specifically, the anti-explosion members are disposed apart from each other at regular intervals in the tapered hole portion 3 (10). Will be biased towards a particular direction. The rule interval means ___ interval. If the anti-explosive members are discharged at the same interval or equal __, the occupational high 敎, can prevent the anti-explosive member _ In addition, the 'anti-explosive member has a thickness that is gradually reduced toward the inside of the main body' and has a hard composition material, The anti-explosive component lion can be opened before the pressure of the slit gas rises = before the explosion. For this purpose, the surface 41 of the material member 400 in contact with the outside air may be extended by the edge of the taper hole and the inner surface of the anti-explosion member 400 in contact with the high-pressure gas is to be planar, FIG. 6 to n The process of forming the anti-explosive member 4〇〇 is shown. Fig. 6 is an enlarged cross-sectional view showing the "A" member 400 of the embodiment shown in Fig. 3, in which the smash is formed in an anti-explosion condition. Figure 7 is an enlarged cross-sectional view showing that the "A" portion of Figure 3 has a score formed on the portable high-pressure gas container as an anti-explosive member: Figure 8 is a - domain diagram, shown in the EMBODIMENT OF THE INVENTION - The manufacturing process of forming the anti-explosion member 400 on the pressurized gas drum. Figure 9 is a view of the smashing of the smashing parts of the smashing parts of the smashing of the smashing of the smashing of the smashing of the smashing of the smashing of the smashing of the smashing of the smashing of the smashing of the smashing process. Figure 11 is a plan view showing the anti-explosion member 400 manufactured in accordance with the process of Figure 1G in accordance with another aspect of the present invention. In order to form the anti-explosion member 4, as shown in Fig. 6, the inner surface of the taper hole portion is provided on the horizontal support portion 51G which is unique to the frame as shown in Fig. 8, and constitutes the anti-explosion member side. On the other hand, the outer surface of the tapered hole portion and the outer surface are pressed by the pressing portion 520 having a material shape corresponding to the outer surface of the tapered hole portion. Therefore, the portion of the taper hole portion of the anti-explosion member 400 has a thinner thickness and a harder composition. At the same time, in order to make the anti-explosion member 400 have a thin thickness and a hard composition, the anti-explosion member 400 can have various shapes, for example, as shown in the factory of U, the anti-explosion member 400 is in contact with the outside air. The outer surface and the anti-explosive member may be curved adjacent to the inner surface 42 of the inner wall of the body. The anti-explosive member may be flat away from the other side of the inner wall of the body. In detail, since the deformation portion (see Fig. 10) deforms in the above process to hinder the joint between the main body 100 and the upper cover member, the anti-explosion member adjacent to the inner wall of the main body chamber is not flat. In particular, as shown in FIG. 5, if the neck sill is formed in the main body, the deformation portion does not look at the figure η and hinders the joint between the main body and the upper cover member. Therefore, the modified anti-explosive member 400 is In order to correct the anti-explosion structure #400', as shown in FIG. 10, when the inner surface of the tapered hole portion 300 constituting the anti-explosion member is disposed on the horizontal support portion of the frame 5〇〇, 201144656, the cone The lowest point of the mouth portion 300 is aligned with the center of the pressing portion 52, and is spaced apart from the center of the supporting portion 510 by a predetermined distance. In the meantime, in order to form a plurality of equally spaced anti-explosive members, 4 to 2 rectangular supports are provided. The portion 510 is radially disposed on the base of the _ base towel (not shown) and 4 to 20 pressing portions 52 are circularly disposed at corresponding positions of the branch portion 51. The 510 and the pressing portion are pressed. The number of parts 52 (4) is not limited to the above number, and can be There are different numbers depending on the application. Preferably, the exact number of the anti-explosion members can be set in consideration of the flow rate of the pressurized gas to the outside. Further, since the anti-explosion members 400 are arranged at equal intervals in the hole of the taper Therefore, the anti-explosion member 働 may have a thickness t, and the thickness t is the distance between the inner surface 420 of the anti-explosion member and the lowest point of the outer surface 41. That is, each anti-explosive member shed has the same thickness, so that When the high body is discharged, the anti-explosion member 400 can be prevented from being deflected in a certain direction. The thickness t of the anti-explosion member 400 is the distance between the inner surface 42 of the anti-explosion member and the lowest point of the outer surface, which can be considered. The material of the upper cover member toilet is determined. If the thickness of the anti-explosive member is __ to _, the anti-explosion member 400 can be easily opened without much resistance. The shirt looks at this diligent surface ^, Qing Cheng's sweat can make the high house gas in the main body 100 discharge to the outside. In order to provide a high view of the scales, the figure can be on the taper hole 300. Forming a score S (leaf disease) to achieve. In the anti-explosion structure of the portable high-pressure gas container 201144656 400, the score S can be torn to form an opening. Therefore, the score s must have sufficient depth and must be in the correct position (Figure 6 "泸Position.) However, if the score S is made too deep, an unexpected opening will be formed, so that the high-pressure gas will be lost before the user uses the high-pressure gas. In addition, if the score S is not in the correct position, The tear position of the score s will change (see ® 6 (4), and "e"), so that the amount of high-body _ difficult S discharge to the outside will be irregular. Therefore, when discharging high-pressure gas, the s-s will be in a special Therefore, the portable high-pressure gas container according to an embodiment of the present invention has an anti-explosion member having the above-described configuration such that when the pressure of the high-profile body rises, the anti-explosion member 400 can be opened to form an opening. . In the meantime, an anti-sand 43 可 may be applied to the outer surface 410 of the anti-explosion member 400. When the portable high-pressure gas container is used in some occasions, for example, the cooking soup will splash on the outer surface of the anti-explosion member, or the moisture will adhere to the anti-explosion member 400 when it rains. On the outer surface, the anti-independence prevents corrosion of the surface 410 outside the anti-piece. A variety of different materials can be used as the anti-money agent 43 as long as they can prevent corrosion of the anti-explosive member 400. For example, the epoxy resin may be applied to the outer surface 41 of the anti-explosive member 4 in an amount of from 3 〇〇 mg / l 〇〇 cm 2 to 350 mg / 100 cm 2 . Preferably, the epoxy resin has a viscosity of 25 to % seconds in the No. 4 Ford Cup. Further, the epoxy resin was applied by a spraying method and was at 2 Torr. (: Bake at a temperature of 22 ° C for 1 minute. The coating state and the degree of coating can be confirmed, which is 19 201144656 for quality management. Thus, since the anti-contact agent 430 is coated on the anti-explosive member In the above, an accidental opening due to the corrosion of the anti-explosion member 400 can be avoided. A portable high-pressure gas container 11 according to an embodiment of the present invention will be described with reference to Figs. To the operation of the I6 system _ anti-explosion member. As shown in Figure 13, before the high-temperature or large external force is applied to the portable high-pressure gas container, the main body and the upper cover member are connected together via the joint member, and the explosion resistance The member is disposed in the fine hole portion of the upper cover member. In this case, as shown in FIG. 14, if high temperature heat or large external force is applied to the portable neon gas volume H, the f human body touches The inner pore portion is flat and flattened, and the anti-explosion member _ opens to form a pore, so that the high-pressure gas in the main body can be discharged. Then, as shown in Fig. 15, the cone is more than a woven fabric. The 丫 口 口 邛 300 becomes flatter and is formed in the pores of the anti-explosion member 400 The shape of the port 44 is called π, so that more high-pressure gas is discharged. Finally, the portable high-pressure gas container shown in Fig. 15 has the shape as shown in the figure. It is completely flattened, and the mouth is formed on the anti-explosion member 4〇0, so that more high-pressure gas can be discharged. Due to the opening of the anti-explosion member 400, the high-view body can be 15 〇 under the pressure of the 15 hall [ e/min] is discharged to a flow rate of 25 〇 [£/mm]. Therefore, the portable high-wei container according to the present invention can meet the standard specification of a gas container for diced gas (flow rate: SO [mouth/min] and air) Pressure: 6 kg/cm 2 ). 20 201144656 Although the exemplary embodiments of the present invention have been described, it should be understood that the present invention should not be limited to these exemplary embodiments. Within the spirit and scope of the patent scope, a person skilled in the art can still make various changes and modifications to the invention. [Simplified illustration of the drawing] FIG. 1 is a marriage which is cut along the longitudinal direction and shows the basis. Inventive-portable high pressure gas container; Figure 2 is - The top cover member of the portable high-pressure gas container according to the embodiment of the present invention; FIG. 3 is a schematic view showing the upper cover of the portable south pressure gas container according to the embodiment of the present invention. Figure 4 is an enlarged cross-sectional view showing an anti-explosion member and a joint member of a two-pressure gas container according to an embodiment of the present invention; The anti-explosion member and the joint member of the portable back pressure gas container of the embodiment; the shape::: one '_ 》, and the part of the anti-explosion member 201144656 FIG. 9 is a plan view showing the process shown in FIG. FIG. 10 is a plan view showing the manufacturing process of the anti-explosion member of the portable high-pressure gas dam according to another embodiment of the present invention; FIG. 11 is a system of 1G The anti-explosion member according to another embodiment of the present invention is shown in the drawings; FIG. 12 is a cross-sectional view schematically showing the manufacturing process of the joint member of the hyperbaric oxygen barn according to the embodiment of the present invention; To the 16-series cutaway view 'showing according to the invention The operation of the anti-explosive member of the portable high-pressure gas container of the embodiment; FIG. 17 is a view showing the explosion pressure of the portable high-pressure gas core device according to the present invention at different turned joint members. Measurement results; Fig. 18 is a diagram showing the measurement result of the occupational force of the portable high pressure gas core device according to the present invention in different faces; Fig. I9 is a diagram showing the basis The portable high-pressure gas container of one embodiment of the invention tests the probability of the amount of gas remaining in the memory of the portable high-pressure gas container. 22 201144656 [Description of main component symbols] Main body 100 Horizontal support portion 510 Upper cover member 200 Pressing portion 520 Valve 210 Engagement member 600 Cone hole portion 300 Flange 610 Antiknock member 400 Extension portion 620 Outer surface 410 Hook portion 630 Inner surface 420 Engagement Reel 700, 720, 730, 740 Resist 430 Bonding Chuck 710 Opening 440 Neck 800 Frame 500 Bottom Cover Member 900 23