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TWI280602B - Method of sealing chip tube and exhaust head used therefor - Google Patents

Method of sealing chip tube and exhaust head used therefor Download PDF

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Publication number
TWI280602B
TWI280602B TW92108255A TW92108255A TWI280602B TW I280602 B TWI280602 B TW I280602B TW 92108255 A TW92108255 A TW 92108255A TW 92108255 A TW92108255 A TW 92108255A TW I280602 B TWI280602 B TW I280602B
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TW
Taiwan
Prior art keywords
pipe
glass panel
exhaust head
sealing
tube
Prior art date
Application number
TW92108255A
Other languages
Chinese (zh)
Other versions
TW200421410A (en
Inventor
Masanori Niya
Original Assignee
Chugai Ro Kogyo Kaisha Ltd
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Publication date
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Publication of TW200421410A publication Critical patent/TW200421410A/en
Application granted granted Critical
Publication of TWI280602B publication Critical patent/TWI280602B/en

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Classifications

    • CCHEMISTRY; METALLURGY
    • C03GLASS; MINERAL OR SLAG WOOL
    • C03BMANUFACTURE, SHAPING, OR SUPPLEMENTARY PROCESSES
    • C03B23/00Re-forming shaped glass
    • C03B23/20Uniting glass pieces by fusing without substantial reshaping
    • C03B23/207Uniting glass rods, glass tubes, or hollow glassware
    • C03B23/213Joining projections or feet
    • CCHEMISTRY; METALLURGY
    • C03GLASS; MINERAL OR SLAG WOOL
    • C03BMANUFACTURE, SHAPING, OR SUPPLEMENTARY PROCESSES
    • C03B23/00Re-forming shaped glass
    • C03B23/04Re-forming tubes or rods
    • C03B23/13Reshaping combined with uniting or heat sealing, e.g. for making vacuum bottles

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Materials Engineering (AREA)
  • Organic Chemistry (AREA)
  • Manufacture Of Electron Tubes, Discharge Lamp Vessels, Lead-In Wires, And The Like (AREA)
  • Gas-Filled Discharge Tubes (AREA)

Abstract

An exhaust head (1A) for holding a chip tube (12) sealed on an air hole of a glass panel (14), comprising: a chip tube loading space (16) provided so as to be evacuated to vacuum and an annular sealing portion (17) for air-tightly holding the chip tube (12) in the chip tube loading space (16); wherein the exhaust head (1A) is supported by spring (22) and is formed so as to displace only in a vertical direction.

Description

1280602 玖、發明說明 (發明說明應敘明:發明所屬之技術領域、先前技術、内容、實施方式及圖式簡單說明) L發明所屬之技術領域3 發明領域 本發明係有關於一種在電漿顯示面板或隔熱玻璃面板 5 等製造程序中之端管密封於玻璃面板之密封方法,及使用 於該密封方法之排氣頭。 【先前技術3 習知技術 例如,在電漿顯示面板之製造程序中,有一步驟係將 10 端管密封於構成玻璃面板之一對玻璃面板構件之通氣孔部 。以往,如第9圖所示,該端管之密封處理係除了將玻璃 製端管12之一方之開口端部氣密地保持於排氣頭11之外 ,還使另一方之開口端部13呈大略為同心圓狀地位於玻璃 面板14之通氣孔部15中,並且在藉夾子32將玻璃面板構 15 件29與玻璃製端管12 —體地固定之狀態下裝入爐内來進 行。 具體而言,前述排氣頭11具有:形成於中心部之端管 裝入空間11 ;由設於該端管裝入空間16内之彈性構件構 成中空之環狀密封部17;配設於該環狀密封部17之周圍 20 之環狀水冷夾套18 ;及由上下挾持前述構件之上部端面構 件19與下部端面構件21。排氣頭11本身係經由設於上部 端面構件19下方之彈簧22而被支持於固定架台23上。 再者,24係排氣管,26係冷卻水供給管,又27為冷 卻水排出管。 1280602 玖、發明說明 端管12於為融著側之上部具有一漏斗形狀之開口端部 13,而端管12之固定徑之下部係由上部端面構件19之裝 入口 28,貫通環狀密封部17而配置於端管裝入空間16内 之預定位置。在該狀態下,利用因由壓縮空氣流出入管25 5 供給之壓縮空氣而膨脹之環狀密封部17,可氣密地保持端 管12之外周部。 玻璃面板14係由一對玻璃構件29所構成,並於下部 具有通氣孔部15。該通氣孔部15係隔著熔著用玻璃糊(玻 料熔接物)31而抵接略為同心之端管12之開口端部13。 10 而且,玻璃面板14與端管12係藉於下片之端部形成 缺口部之爽子32而一體地固定。再者,玻璃面板14係載 置於基台5之面板支持構件5A上,且基台5之面板支持 構件5A與固定架台23保持固定之位置關係。該固定架台 23及前述基台5係設置於如排氣車上。 15 而且,在該狀態下,保持於排氣頭11之端管12與玻 璃面板14裝入爐内,並藉加熱進行端管12與玻璃面板14 之密封。 發明欲解決之課題 前述習知之端管12與玻璃面板14之密封方法中,在 20 進行搬送、加熱、密封處理等期間,上述各部宜保持相對 的固定位置關係,但因為振動及衝擊,或熱膨脹及收縮之 差,會產生排氣頭11與玻璃面板14之間的相對位置偏移 之狀況。 該情況下,例如當由環狀密封部17作用於端管12之 1280602 玖、發明說明 力過大時,該作用力會大於將玻璃面板14與端管12 —體 地固定之力,而有端管12因為傾斜碰到夾子32而破損, 或玻璃糊31脫離玻璃面板14下面而不能進行密封處理等 問題產生。 5 又,若排氣頭11與玻璃面板14之間在水平方向之相 對位置產生偏移,則排氣頭11將無法平行移動而傾斜。 在此情況下,則有如產生旋轉之不恰當之力會作用於 端管12,並且有過大之彎曲矩作用於端管12使端管12傾 斜,而導致端管12破損或無法進行密封處理等狀況產生。 10 【發明内容】 解決課題之方法 為解決前述問題,本發明在將保持於排氣頭之端管密 封於玻璃面板之通氣孔部之端管之密封方法中,係使前述 端管構造成其融著側之開口端部朝上,且將前述端管保持 15 於由產生反力之加壓構件所支持之前述排氣頭上,並藉前 述加壓構件之反力使前述開口端部成為推壓於前述玻璃面 板之下面之通氣孔部之狀態,並且在該狀態下進行密封處 理。 又,本發明在用以保持密封於玻璃面板之通氣孔部之 20 端管之排氣頭中,係構造成:包含有一可進行真空排氣之 空間部,及一用以將端管之外周氣密地保持於該空間部内 之環狀密封部,且該排氣頭受產生反力之加壓構件所支持 並形成僅可於上下方向進行位移。 1280602 玖、發明說明 t實施方式3 發明之實施型態 以下,參照第1圖說明本發明之一實施型態。 第1圖及第2圖係顯示使用於有關本發明之端管12之 密封方法之排氣頭1A及其周邊部,有關與帛9圖所示之 構造之各部互為共通之部分則㈣與相同編號且省略說明。 第1圖及第2圖所示之構造中,於固定架台23與下部 端面構件21之間設有滑動導引部2A。該滑動導引部μ 10 係由筒狀體3與可滑動地嵌插於該筒狀體3内之桿構件* 所構成,筒狀體3係固定於固定架台23之下面,而桿構件 4係立設於下部端面構件21。而且,藉該滑動導引部从 而限制排氣頭1Α對固定架台23作相對地橫向移動,而只 可於上下方向移動。 其次’參照第3〜6圖說明適用該排氣頭1Α之作業牛 15 驟。 八y 首先,如第3圖所示,準備排氣頭1A,使配置玻璃糊 31之開口端部13之端管U位於端管裝人空間16 之正上方後/如第4圖所示’將端管12之下部由裝入口 28裝入^裝入空間16内,並將壓縮空氣送人環狀密封 …’以藉環狀密封部17氣密地保持端管12之外周部 :在此情:下’為端管12之溶著側之上部的開口端部Η 上面係比刚述之載置於排氣車上之基台5 Μ下面高出若干,例如位於上方㈠随。璃面板 其次’如第5圖所示,使端管12之開α端部13與通 20 1280602 玫、發明說明 氣孔部15略為同^,並保持該狀態,並如第6圖所示,將 玻璃面板14魅於前述基台5上。該結果是端管12因為 玻璃面板14之重量而往下壓,並當下降前述若干量(例: 1〜3mm)時,同時開口端部13成為藉加壓構件之一例之彈 5簧22之反力而隔著玻璃糊31推壓通氣孔部15之狀態。此 時,藉滑動導引部2A,端管12不會受到橫向之力,僅可 於上下方向進行位移。 10 15 接著,在該狀態下,端管12與玻璃面板14同時裝入 爐内’並根據預定之加熱曲線進行加熱後,進行端管12與 玻璃面板14之密封處理。由於藉前述之開口端部η往通 氣孔部15處推壓’玻璃糊31與玻璃面板14之間的摩擦力 會大於玻璃面板14與基台5之間的摩擦力,因此在該密封 步驟中’加熱之_面板14以開σ端部13所推壓之通氣 孔部15為基點而膨脹,不會產生開口端部13與通氣孔部 15之間的位置偏移。又,該密封處理步驟中,即使於玻璃 面板14產生料,由於端管12藉彈簧22而賦與向上之勢 能’因此玻璃面板14與破璃糊31之間不會產生空隙。 第7圖及第 示適用保持有關本發明之端管 之其他方法之排氣頭1Β及其周邊部,㈣i圖及第2 所示之構造各部互為共通之部分則賦與相同編號且省略 明。 該排氣頭1B中,安裝於固二 疋果σ 23下面之滑動導弓| 部2Β係配置於靠近水冷夾套 >π固< 3處以上如4個地 方。而且,藉該滑動導引部2β 限制排乳頭1Β之橫向移貪 20 1280602 玖、發明說明 ,僅容許上下方向之位移,可產生與前述相同之作用。 再者,本發明之加壓構件並非限定於彈簧22,只要係 可產生反力之構件即可,除了彈簧22之外,例如利用該原 理而作成賦與排氣頭1A對固定架台23作相對的向上之勢 5能亦可。又,前述加壓構件亦可包含凸輪機構、使用配重 之機構。 發明之效果 由以上說明可了解,根據第丨發明,係使密封於玻璃 面板之通氣孔部之端管之熔著側之開口端部向上且保持於 10排氣頭上,並使前述開口端部於前述玻璃面板下面之通氣 孔部成為推壓狀態,並且在該狀態下進行密封處理。 即,由於不使用夾子將玻璃面板與端管一體地固定來 進行密封處理,故可避免隨著將端管與玻璃面板裝入爐内 時之衝擊或振動,或在進行密封、真空排氣處理時由各部 15之熱膨脹及收縮之差產生之熱變形而導致過大之力作用於 端官,尤其是可避免由側方使端管旋轉之力,又,可防止 因夾子造成損害之發生、端管之損壞,同時可達到密封處 理之早備作業簡單化、其信賴性亦提高等效果。 又,根據第2發明,係藉彈簧來支持保持密封於玻璃 2〇面板之端管之排氣頭,同時形成僅可於上下方向進行位移 〇 因此,雄、封之端管朝玻璃面板推壓並垂直地保持,該 垂直方向以外之方向力不會作用於端管,而可達到輕易維 持端管之推壓狀態之效果。 10 1280602 &、發明說明 【阁式簡單說明】 第1圖係顯示適用保持有關本發明之端管之方、去之排 氣頭及其周邊部之截面圖。 第2圖係顯示第i圖中之滑動導引部之配置狀態之概 略Η-Π線截面圖。 態之作業 第3圖係顯示適用第丨圖所示之排氣頭之型 步驟圖。 第4圖係顯示適用第丨圖所示之排氣頭之型態之作業 步驟圖。 “ ^ 10 步驟圖 第5圖係顯示適用第1圖所示之排氣頭之型態之作業 第6圖係顯示適用第1圖所示之排氣頭之型態之作業 步驟圖。 帛7圖係顯示適用保持有關本發明之端管之方法之並 他排氣頭及其周邊部之截面圖。 第8圖係顯示第7圖中 ^間Τα動導引部之配置狀態之概略 VIII-VIII線截面圖。 第9圖係顯示適用保持習知之端管之排氣頭及 部之截面圖。 第10圖係顯示適用伴拉 ^ 用保持S知之端管之方法之其他排氣 碩及其周邊部之截面圖。 20 1280602 玖、發明說明 【圖式之主要元件代表符號表】 29...玻璃面板構件 31 · · ·玻璃糊 32···夾子 1A,1B,11···排氣頭 2A,2B...滑動導引部 3…筒狀體 4…桿構件 5.. .基台 5A…面板支持構件 12…端管 13…開口端部 14…玻璃面板 15···通氣孔部 16.. .端管裝入空間 17···環狀密封部 18…壞狀水冷炎套 19.. .上部端面構件 21.. .下部端面構件 22…彈簧 23.. .固定架台 24···排氣管 25.. .壓縮空氣流出入管 26.. .冷卻水供給管 27.. .冷卻水排出管 28··.裝入口 121280602 发明, the description of the invention (the description of the invention should be described: the technical field, prior art, content, embodiment and schematic description of the invention) The technical field to which the invention belongs 3 FIELD OF THE INVENTION The present invention relates to a plasma display A sealing method in which a terminal pipe in a manufacturing process such as a panel or an insulating glass panel 5 is sealed to a glass panel, and an exhaust head used in the sealing method. [Prior Art 3] For example, in the manufacturing process of the plasma display panel, there is a step of sealing the 10-terminal tube to the vent hole portion constituting one of the glass panels to the glass panel member. Conventionally, as shown in Fig. 9, the sealing treatment of the end tube is such that the open end of one of the glass end tubes 12 is hermetically held outside the exhaust head 11, and the other end portion 13 is opened. It is roughly concentrically placed in the vent hole portion 15 of the glass panel 14, and is placed in the furnace in a state where the glass panel 15 member 29 and the glass end tube 12 are integrally fixed by the clip 32. Specifically, the exhaust head 11 has an end tube loading space 11 formed at a center portion, and an elastic member formed in the end tube loading space 16 to form a hollow annular sealing portion 17; An annular water-cooling jacket 18 around the circumference of the annular seal portion 17; and the upper end surface member 19 and the lower end surface member 21 of the member are held up and down. The exhaust head 11 itself is supported by the fixed frame 23 via a spring 22 provided below the upper end surface member 19. Further, the 24 series exhaust pipe, the 26-series cooling water supply pipe, and the other 27 are the cooling water discharge pipes. 1280602 发明, the invention shows that the end tube 12 has a funnel-shaped open end 13 on the upper side of the fusion side, and the lower part of the fixed diameter of the end tube 12 is the inlet 28 of the upper end member 19, which penetrates the annular seal 17 is disposed at a predetermined position within the end tube loading space 16. In this state, the outer peripheral portion of the end pipe 12 can be hermetically held by the annular seal portion 17 which is expanded by the compressed air supplied from the compressed air flowing into the pipe 25 5 . The glass panel 14 is composed of a pair of glass members 29 and has a vent hole portion 15 at the lower portion. The vent hole portion 15 is in contact with the opening end portion 13 of the slightly concentric end tube 12 via the glass paste for fusion (glass frit) 31. Further, the glass panel 14 and the end tube 12 are integrally fixed by the sinker 32 which forms a notch portion at the end portion of the lower sheet. Further, the glass panel 14 is placed on the panel supporting member 5A of the base 5, and the panel supporting member 5A of the base 5 and the fixing frame 23 are held in a fixed positional relationship. The fixing frame 23 and the aforementioned base 5 are provided on, for example, an exhaust vehicle. Further, in this state, the end pipe 12 and the glass panel 14 held in the exhaust head 11 are placed in the furnace, and the end pipe 12 and the glass panel 14 are sealed by heating. SUMMARY OF THE INVENTION PROBLEM TO BE SOLVED BY THE INVENTION In the sealing method of the above-described conventional end tube 12 and glass panel 14, during the transportation, heating, sealing treatment, and the like, the above-mentioned respective portions should maintain a relative fixed positional relationship, but due to vibration and impact, or thermal expansion. The difference between the contraction and the contraction causes a relative positional shift between the exhaust head 11 and the glass panel 14. In this case, for example, when the annular seal portion 17 acts on the end tube 12 at 1,280,602, the force of the invention is too large, the force is greater than the force that integrally fixes the glass panel 14 and the end tube 12, and the end is The tube 12 is broken by the inclination of the clip 32, or the glass paste 31 is separated from the underside of the glass panel 14, and the sealing process cannot be performed. Further, when the relative position between the exhaust head 11 and the glass panel 14 in the horizontal direction is shifted, the exhaust head 11 cannot be moved in parallel and inclined. In this case, an improper force such as rotation may act on the end tube 12, and an excessive bending moment acts on the end tube 12 to tilt the end tube 12, causing the end tube 12 to be broken or unable to be sealed. The situation arises. [Explanation of the Invention] In order to solve the above problems, in the sealing method of the end pipe which is sealed to the end portion of the vent hole of the glass panel, the end pipe is constructed such that The opening end of the melting side faces upward, and the end pipe is held 15 on the exhaust head supported by the pressing member that generates the reaction force, and the opening end is pushed by the reaction force of the pressing member. The state of the vent hole portion under the glass panel is pressed, and the sealing treatment is performed in this state. Further, the present invention is configured in an exhaust head for holding a 20-end tube sealed to a vent hole portion of a glass panel, comprising: a space portion for evacuating the vacuum, and a peripheral portion for the end tube The annular seal portion is hermetically held in the space portion, and the exhaust head is supported by the pressing member that generates the reaction force and is formed to be displaceable only in the vertical direction. 1280602 发明, DESCRIPTION OF THE INVENTION t 3 EMBODIMENT OF THE INVENTION Hereinafter, an embodiment of the present invention will be described with reference to Fig. 1 . Figs. 1 and 2 show an exhaust head 1A and a peripheral portion thereof for use in a sealing method for the end pipe 12 of the present invention, and a portion common to the respective portions of the structure shown in Fig. 9 (4) and The same reference numerals are used and the description is omitted. In the structures shown in Figs. 1 and 2, a slide guide 2A is provided between the fixed stand 23 and the lower end member 21. The sliding guide portion 10 is composed of a cylindrical body 3 and a rod member* slidably inserted into the cylindrical body 3. The cylindrical body 3 is fixed to the lower surface of the fixed frame 23, and the rod member 4 is It is erected on the lower end surface member 21. Further, the sliding guide portion restricts the exhaust head 1 to relatively move laterally to the fixed frame 23, and can only move in the up and down direction. Next, the operation of the exhaust head 1 15 will be described with reference to Figs. 3 to 6. Eight y First, as shown in Fig. 3, the exhaust head 1A is prepared such that the end pipe U of the open end portion 13 of the glass paste 31 is placed directly above the end pipe charging space 16 as shown in Fig. 4 The lower portion of the end tube 12 is loaded into the loading space 16 by the loading port 28, and the compressed air is sent to the annular seal ... to airtightly hold the outer circumference of the end tube 12 by the annular sealing portion 17: here The lower end is the upper end of the upper end of the melted side of the end tube 12, and the upper end is higher than the lower surface of the base 5 that is placed on the exhaust vehicle, for example, located above (1). The glass panel is next as shown in Fig. 5, so that the open end portion 13 of the end tube 12 is slightly the same as the through hole 20 1280602, and the vent portion 15 is kept in the same state, and as shown in Fig. 6, The glass panel 14 is charmed on the aforementioned base 5. As a result, the end pipe 12 is pressed downward by the weight of the glass panel 14, and when the above-mentioned amount is decreased (for example, 1 to 3 mm), the open end portion 13 becomes a spring 5 spring 22 which is an example of a pressing member. The reaction force is pressed against the vent hole portion 15 via the glass paste 31. At this time, the end pipe 12 is not subjected to the lateral force by the sliding guide portion 2A, and can be displaced only in the up and down direction. 10 15 Next, in this state, the end tube 12 and the glass panel 14 are simultaneously charged into the furnace and heated according to a predetermined heating curve, and then the end tube 12 and the glass panel 14 are sealed. Since the friction between the glass paste 31 and the glass panel 14 is greater than the friction between the glass panel 14 and the base plate 5 by the above-mentioned open end portion η toward the vent hole portion 15, the sealing step is performed in the sealing step. The 'heated' panel 14 is expanded with the vent hole portion 15 pressed by the σ end portion 13 as a base point, and the positional displacement between the opening end portion 13 and the vent hole portion 15 does not occur. Further, in the sealing treatment step, even if the glass panel 14 generates a material, since the end tube 12 is biased upward by the spring 22, no gap is formed between the glass panel 14 and the glass paste 31. In the seventh embodiment and the description, the exhaust head 1Β and its peripheral portion for the other methods of the end pipe of the present invention are applied. (4) The parts of the structure shown in Fig. 2 and the second embodiment are given the same reference numerals and are omitted. . In the exhaust head 1B, the sliding guide bow portion 2 attached to the lower surface of the solid σ 23 is disposed near the water-cooling jacket > π solid < 3 or more. Further, by the sliding guide portion 2β, the lateral displacement of the nipple 1Β is restricted, and the invention is described, and only the displacement in the up-and-down direction is allowed, and the same effect as described above can be produced. Furthermore, the pressurizing member of the present invention is not limited to the spring 22, and may be any member that can generate a reaction force. In addition to the spring 22, for example, the principle is used to make the exhaust head 1A opposite to the fixed frame 23. The upward trend of 5 can also be. Further, the pressing member may include a cam mechanism and a mechanism for using a weight. According to the invention of the present invention, the opening end portion of the melt side of the end pipe sealed to the vent hole portion of the glass panel is upwardly held on the exhaust head 10 and the open end portion is provided. The vent hole portion under the glass panel is pressed, and the sealing process is performed in this state. That is, since the glass panel and the end tube are integrally fixed without a clip for sealing treatment, it is possible to avoid impact or vibration when the end tube and the glass panel are loaded into the furnace, or to perform sealing and vacuum evacuation treatment. When the thermal deformation caused by the difference between the thermal expansion and the contraction of the respective portions 15 causes an excessive force to act on the end, in particular, the force for rotating the end tube by the side can be avoided, and the damage caused by the clip can be prevented. The damage of the tube can also achieve the effects of simplifying the early preparation of the sealing treatment and improving the reliability thereof. Further, according to the second aspect of the invention, the exhaust head that is kept sealed to the end pipe of the glass panel is supported by a spring, and is formed to be displaced only in the up and down direction. Therefore, the male and the sealed end pipe are pressed toward the glass panel. And the vertical direction is maintained, and the direction force other than the vertical direction does not act on the end tube, and the effect of easily maintaining the pushing state of the end tube can be achieved. 10 1280602 & Description of the Invention [Simple description of the cabinet] Fig. 1 is a cross-sectional view showing the application of the end pipe of the present invention, the exhaust head and its peripheral portion. Fig. 2 is a schematic cross-sectional view showing the arrangement state of the slide guide portion in Fig. i. Operation of the figure Figure 3 shows the type of the exhaust head shown in the figure. Figure 4 is a diagram showing the operation of the type of the exhaust head shown in Figure 1-3. “ ^ 10 Step Diagram Figure 5 shows the operation of the type of exhaust head shown in Figure 1. Figure 6 shows the operation steps for the type of exhaust head shown in Figure 1. 帛7 The figure shows a cross-sectional view of the exhaust head and its peripheral portion which is suitable for maintaining the method of the end pipe according to the present invention. Fig. 8 is a view showing the arrangement state of the inter-turn α-moving guide portion in Fig. 7 - Section VIII. Fig. 9 is a cross-sectional view showing the exhaust head and the portion to which the conventional end pipe is held. Fig. 10 is a view showing the other exhausting means for applying the method of holding the end pipe of the S Cross-section of the peripheral part. 20 1280602 玖, invention description [main symbol representative symbol table] 29... glass panel member 31 · · · glass paste 32···clip 1A, 1B, 11··· exhaust Head 2A, 2B...sliding guide 3...tubular body 4...bar member 5...butment 5A...panel support member 12...end tube 13...open end 14...glass panel 15···ventilation hole Part 16. End tube loading space 17 · · Annular sealing part 18 ... Bad water cooling sleeve 19 .. Upper end surface member 21.. Lower end surface 22 ... 23 .. spring member. ????? stationary frame 24 of the exhaust pipe 25 .. The compressed air flows into the tube 26 ... .. cooling water supply pipe 27. 28 ·· cooling water discharge tube. 12 means inlet

Claims (1)

1280602 拾、申請專利箪货圍 5 z. 10 一種端管之密封方法,係將保持於排氣頭之端管密封 於玻璃面板之通氣孔部之端管之密封方法,其特徵在 於··使前述端管之融著侧之開口端部朝上,且將前述 端管保持於由產生反力之加I構件所支持之前述排氣 頭上’並藉前述加壓構件之反力使前述開口端部成為 推壓於前述玻璃面板之下面之通氣孔部之狀態,並且 在该狀態下進行密封處理。 一種使將端管之密封之排氣頭,係㈣於 玻璃面板之通氣孔部之端管者,其特徵在於 頭包含有-可進行真空排氣之空間部,及端 管之外周氣密地保持於該空間部内之環狀密封部: ==二力:加壓構件所支持並形成為僅可 15 131280602 Picking up, applying for a patent, a cargo wrap 5 z. 10 A method for sealing an end pipe, which is a sealing method for sealing an end pipe of an exhaust pipe to a pipe end of a vent hole of a glass panel, characterized in that The open end of the melt side of the end pipe is upwardly facing, and the end pipe is held on the exhaust head supported by the reaction generating member I and the open end is caused by the reaction force of the pressing member The portion is in a state of being pressed against the vent hole portion of the lower surface of the glass panel, and the sealing treatment is performed in this state. An exhaust head for sealing an end pipe, which is (4) a pipe end of a vent hole portion of a glass panel, characterized in that the head includes a space portion capable of vacuum evacuation, and a peripheral portion of the end pipe is airtightly An annular seal portion held in the space portion: == two force: supported by the pressing member and formed to be only 15 13
TW92108255A 2001-10-31 2003-04-10 Method of sealing chip tube and exhaust head used therefor TWI280602B (en)

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JP2001334723A JP3670997B2 (en) 2001-10-31 2001-10-31 Tip tube sealing method and exhaust head used therefor

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TWI280602B true TWI280602B (en) 2007-05-01

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Publication number Priority date Publication date Assignee Title
WO2007043159A1 (en) * 2005-10-07 2007-04-19 Chugai Ro Co., Ltd. Panel-manufacturing system for plasma display panel or the like
TWI391979B (en) * 2005-10-07 2013-04-01 Chugai Ro Kogyo Kaisha Ltd System for producing panels such as plasma display panel
JP2009193850A (en) * 2008-02-15 2009-08-27 Chugai Ro Co Ltd Exhaust head, and evacuation device
JP2009205836A (en) * 2008-02-26 2009-09-10 Chugai Ro Co Ltd Evacuation head

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