1242175 (1) 玖、發明說明 【發明所屬之技術領域】 本發明係關於壁面安裝照明看板裝置, 由內部的照明使看板顯示明亮地浮起的内照 照明看板裝置。 【先前技術】 習知的内照型的看板裝置,有壁面照明 2 3圖是習知的壁面照明看板裝置的立體圖< 1 00是壁面照明看板裝置,1 ο 1是看板顯示彳 落部,1 0 3是端部。以下,將習知的壁面照 結構、壁面看板的製作、這些的安裝工事、 維修)及其解體,分開爲各項來說明。 (1 )習知的壁面看板的結構 (甲)習知的壁面看板是由設有金屬骨架 金屬框體所構成,在其左右兩端設有使其他 由螺絲而連結的骨架,且,其上下兩方向形 固定光線漏出防止的金屬板用的骨架,進一 側是由鉚釘將裏面板固定在由地腳螺栓而被 的骨架上,且在背面板的內側是使複數的照 屬零件被螺固,進一步又,其前方是由設有 體在上下骨架的支承構件所構成的壁面安裝 是自重重達30〜50kg的重量物。 尤其是有關藉 型的壁面安裝 看板裝置。第 第23圖中, 豊,102是角 明看板裝置的 這些的管理( 的長方箱形的 的金屬框體藉 成有藉由鉚釘 步,在其背面 固定在壁面上 明機器藉由金 嵌合安裝廣告 看板框體,其 (2) 1242175 (乙)看板顯示體1 Ο 1是由將光透過性合成樹脂面板懸 架固定在壁面安裝看板框體上的上下金屬框及合成樹脂面 板的左右兩剖面的肓化妝金屬框由所構成。 (丙)有關抵觸角落部1〇2(曲折成90° 、135°的部分) 及端部103 (末端部分)的看板體,是由一對的壁面安裝金 屬框體及看板顯示框體組裝成的結構,並將該看板體安裝 在壁面上。 (丁)在壁面安裝金屬框外的上方使長的屋簷材沿著壁 設置,且長的屋簷材是配設成固定在壁上。 (2)習知的壁面看板的製作 (甲)進行金屬材的裁斷、折曲、穿孔、熔接、鎖螺絲 、釘鉚釘等的金屬加工及組裝加工。進行照明機器安裝及 照明機器的點燈測試。 (乙)看板顯示體中,對於光透過性合成樹脂面板的金 屬框體的裝塡組裝是必需同時進行。各零件的重量雖不重 物 量 重 的 大 爲 成 則 話 的 來 起 裝 組 但 (3)習知的壁面看板的安裝工事 (甲)將與角落部1〇2(曲折成90° 、135°的部分)接觸 的一組看板體由地腳螺栓固定後,開始壁面看板的安裝工 事。以此爲基點支撐相鄰的壁面看板安裝框體並找出彼此 的連結骨架的通孔位置後將螺絲***暫時地固定,接著確 認位置並由地腳螺栓固定在壁面上後暫時由螺絲固定。返 (3) 1242175 覆此程序,依序地進行連結,將全部的壁面金屬框體配設 後,完成進行各照明機器的連結配線作業後,再度進行點 燈測試。 (乙)將屋簷材放在金屬框外的上方並由小螺絲固定在 ^ 壁面上。 < (丙)將看板顯示體懸架在各壁面看板體的上方並從下 方將其固定後結束工事。看板顯示體是分別爲成對的金屬 框體。 _ (4) 習知的壁面看板的管理(維修) (甲)看板體的內部淸掃是每當淸掃時將顯示體打開個 別取出進行。 (乙)金屬的折曲部、穿孔部、熔接部會因水或塵埃的 滲入使生鏽發生。維修即含有此去鏽防鏽的補修。 (5) 習知的壁面看板的解體 ® (甲)需要與施工同等的勞力及時間。生鏽的發生已進 行至手伸不到的地方,在折除時容易產生折曲、變形,其 結果被當作產業廢棄物處理。進一步在可回收垃圾的分類 ‘ 上是需要進行金屬部的熔斷、壓縮等。 · 【發明內容】 (本發明所欲解決的課題) 但是,依據上述習知的壁面照明看板裝置,有以下@ -8 - (4) 1242175 問題。 (1) 首先,在壁面看板的製作時,因爲金屬加工時會 導致電線破損等,而有在照明機器的安裝及配線之外也需 要進行點燈測試的問題。 (2) 且,各零件雖不重,但組裝起來的話還是會成爲 大的重量物,因此,必然需由男性作業員是進行作業,而 會有成爲造成女性作業員的工作障礙的要因的問題。 (3) 且,配設壁面安裝金屬框體的作業是危險的重量 物的連結作業,由2名作業員支撐壁面安裝金屬框體,1 名作業員則在立足不易的環境下進行連結作業。因此非常 耗費勞力,而有導致成本增加的問題。 (4) 且,因連結時的鎖緊所產生的變形、水平精度選 擇的困難,而有只要初期時點的輕微的錯誤就可導致影響 壁面整體的外觀品質的問題。 (5) 屋簷材的安裝作業中,朝前方伸出的看板安裝框 體,因位在作業者的正前方而作業困難,且橫移的動作會 使金屬框端緣鉤住作業服,而有會導致意外的問題。 (6) 且,進行將看板顯示體懸架在各壁面看板體的上 方並從下方固定的工事,因爲各爲成對的金屬框體,無法 相互地滑動靠近,所以若相互之間發生間隙的情況時的修 正是很困難,而有變形或水平精度不良等到最後才被發現 的問題。 (7) 且,雖然看板體的內部淸掃是每當淸掃時將顯示 體打開個別取出進行,但因爲看板體的內部的各四隅是由 -9 - (5) f 1242175 金屬骨架所包圍,所以內部的灰塵、蟲的死屍、生鏽等的 淸掃除去作業是不易進行,而有需花費多數勞力及時間的 問題。 (8 )且,金屬的折曲部、穿孔部、熔接部會因水或塵 埃的滲入使生鏽發生,所以維修即含有此去鏽防鏽的補修 ,但有該手可伸得到的範圍內的補修並不完全的問題。 (9)進一步,習知的壁面看板的解體也需要與施工的 困難度同等的勞力及時間。且因爲生鏽的發生已到達手伸 不到的部分,而在折除時容易發生折曲、變形,而有無法 保證是否符合再利用的品質的問題。其結果有被當作產業 廢棄物處理,進一步,在可回收垃圾的分類上,需將金屬 部熔斷、壓縮等的問題。 爲解決上述的課題,本發明的目的爲提供一種:輕量 且安裝或取下所需的時間及勞力較少,同時不需擔心發生 看板面材內部的污染等,且淸掃等的維修作業是非常簡単 容易,同時對於模樣切換或破損等也可簡単且經濟地對應 的壁面安裝照明看板裝置。 (用以解決課題的手段) 爲了達成上述目的,本發明的第1態樣所採用的壁面 安裝照明看板裝置,其特徵爲,至少包含:在壁面,水平 設置有相互平行的壁上部支承軌道及壁下部支承軌道,且 將照明器具設在壁上部支承軌道及壁下部支承軌道的中間 部,且設有將壁上部支承軌道及壁下部支承軌道及照明器 -10- 1242175 (6) 具分別配置於預定間距的正確位置上的校位件,並且設有 使配設成嵌合在壁上部支承軌道的長的屋簷材的看板顯示 體支承手段;在前述壁上部支承軌道上的預定對應位置, 當卡合於壁上部軌道的長度方向後,隔著固定在合成樹脂 ^ 中空體操作盤的熱膨脹應力緩衝台座而被***固定於可轉 · 動裝卸地卡接的操作盤上軌道、和具備與壁下部支承軌道 抵接而嵌接的功能且可裝卸的操作盤下軌道之上的看板顯 示體。 _ 藉由此結構,因爲設有將壁上部支承軌道及壁下部支 承軌道及照明器具配置在正確位置的校位件,且將看板顯 示體各形成單元結構,而可裝卸地卡接固定在壁上部支承 軌道及壁下部支承軌道,所以輕量,且安裝或取下所需要 的時間及勞力少,而且不需擔心發生看板面材內部的污染 等,且淸掃等的維修作業是非常簡単容易,同時模樣切換 或破損等也簡単且可經濟地對應。 本發明的第2態樣所採用的壁面安裝照明看板裝置, · 如第1態樣,其中,包含:看板顯示體支承手段,形成: 以壁面爲預定角度的角落部爲基點,水平設有相互平行的 前述壁上部支承軌道及前述壁下部支承軌道,且將壁上部 · 支承軌道的壁上部支撐件及壁下部支承軌道的壁下部支撐 件分別固定在該壁上部支承軌道及壁下部支承軌道的各末 端部的端剖面,且對於前述角落部使角落屋簷材嵌合固定 在前述壁上部支承軌道,且,對於前述壁上部支承軌道及 壁下部支承軌道的端部,使覆蓋屋簷材的端剖面的屋簷端 -11 - 1242175 (7) 蓋固定在該屋簷材的端剖面;隔著衝擊應力緩衝彈性構件 被固定在角落部合成樹脂中空體操作盤上的2組可滑動至 抵接支承件位置且可被螺固的安裝件,而被固定的角落部 看板顯示體;隔著衝擊應力緩衝彈性構件被固定在端部合 成樹脂中空體操作盤上的2組可滑動至抵接支承件位置且 可被螺固的安裝件,而被固定的端部看板顯示體。 藉由此結構’因爲包含:將支承件固定在壁上部支承 軌道及壁下部支承軌道的各末端部的端剖面,且在角落部 使角落屋簷材被嵌合固定在壁上部支承軌道上且使覆蓋屋 簷材的端剖面的蓋材固定在屋簷材的端剖面上的看板顯示 體支承手段;藉由隔著衝擊應力緩衝彈性構件被固定在角 落部合成樹脂中空體操作盤上的2組可滑動至抵接支承件 位置且可被螺固的安裝件而被固定的角落部看板顯示體所 形成的角落部;藉由隔著衝擊應力緩衝彈性構件被固定在 端部合成樹脂中空體操作盤上的2組可滑動至抵接支承件 位置且可被螺固的安裝件而被固定的端部看板顯示體所形 成的端部;所以即使是壁面爲預定角度的角落部及壁面的 端部,也可以使各壁面上的屋簷材及看板顯示體之間,在 構造上及外觀上變得平順。 本發明的第3態樣所採用的壁面安裝照明看板裝置, 如第1態樣,其中,隔著熱膨脹應力緩衝台座而固定在前 述看板顯示體的前述操作盤上軌道及前述操作盤下軌道, 是可裝卸於前述看板顯示體支承手段的相互平行的壁上部 支承軌道及壁下部支承軌道。 -12- (8) 1242175 藉由此結構,因爲每個看板顯示體的單元可對於看板 顯示體支承手段的平行的壁上部支承軌道及壁下部支承軌 道進行裝卸,所以安裝或取下所需的時間及勞力較少,同 時淸掃等的維修作業是非常簡単容易,對於模樣切換或破 損等也可簡単且經濟地對應。 本發明的第4態樣所採用的壁面安裝照明看板裝置, 如第1態樣,其中,隔著熱膨脹應力緩衝台座而固定在前 述看板顯示體的前述操作盤上軌道及前述操作盤下軌道, 是可沿著前述看板顯示體支承手段的相互平行的壁上部支 承軌道及壁下部支承軌道滑動。 藉由此結構,可以角落部爲基點,使操作盤上軌道及 操作盤下軌道一起,朝角落側靠緊,並依序地配置,所以 橫方向的微調整是可簡単地進行,而可使看板顯示體平均 地被配置。 本發明的第5態樣所採用的壁面安裝照明看板裝置, 如第1、3或4態樣,其中,隔著熱膨脹應力緩衝台座而 固定在前述看板顯示體的前述操作盤上軌道及前述操作盤 下軌道的全長,是比前述合成樹脂中空體操作盤的全長更 長。 藉由此結構,因爲看板顯示體的合成樹脂中空體操作 盤彼此之間不會接觸’所以合成樹脂中空體操作盤的變形 不會發生,而可以形成外觀上在也優秀的看板顯示體。 本發明的第6態樣所採用的壁面安裝照明看板裝置, 如第1、3或4態樣’其中’在固定於前述看板顯示體的 -13- 1242175 Ο) 前述操作盤上軌道及前述操作盤下軌道的預定位置設有缺 口,且在該熱膨賬應力緩衝台座,設有將卡合在此缺口的 銷構件裝設固定用的孔部。 藉由此結構,因爲在操作盤上軌道及操作盤下軌道的 長度方向的預定位置設有缺口,且在熱膨脹應力緩衝台座 _ ,設有卡合在此缺口的卡合部材,所以操作盤上軌道及操 作盤下軌道被定位在各看板顯示體單元的左右中央位置。 本發明的第7態樣所採用的壁面安裝照明看板裝置, · 如第1、3或4態樣,其中,在前述熱膨脹應力緩衝台座 是設有使前述操作盤上軌道及操作盤下軌道***用的略C 字狀的顎部爪,且,在熱膨脹應力緩衝台座及合成樹脂中 空體操作盤的抵接部,設有當固定雙方時由鉚釘等隔著衝 擊應力緩衝彈性雙面粘接帶將雙方固定用的固定孔。 藉由此結構,可以正確地且確實固定:熱膨脹應力緩 衝台座及操作盤上軌道或操作盤下軌道、熱膨脹應力緩衝 台座及合成樹脂中空體操作盤。 春 本發明的第8態樣所採用的壁面安裝照明看板裝置, 如第1、3或4態樣,其中,前述合成樹脂中空體操作盤 全長是只比螢光燈支架長預定的長度。 - 藉由此結構,因爲合成樹脂中空體操作盤的長度是比 _ 安裝在校位件的燈支架乃至燈的長度更長,所以雙方之間 可有充余的空間進行位置配合,而可在相互不干渉的狀態 下進行看板顯示體的組裝。 本發明的第9態樣所採用的壁面安裝照明看板裝置, -14- (10) 1242175 如第1、3或4態樣,其中,前述合成樹脂中空體操作盤 是由前方顯示面部及後方看板體安裝面及螢光透過面所構 成,並且在該後方看板體安裝面至少設有供防止體膨脹用 的通氣孔且該通氣孔是由通氣薄片接合所構成。 藉由此結構,因爲合成樹脂中空體操作盤是由單純的 構件組合而成,所以可以提供各構件的成品率,並且,具 有防塵、防蟲、防水的功能。 本發明的第1 〇態樣所採用的壁面安裝照明看板裝置 ,如第1、3或4態樣,其中,爲了阻礙可轉動地卡合在 前述操作盤上軌道的前述壁上部支承軌道的轉動動作,而 將防止前述看板顯示體脫離用的看板顯示體脫離防止手段 設在各合成樹脂中空體操作盤的中央的位置。 藉由此結構,因爲使看板顯示體無法從壁上部支承軌 道及壁下部支承軌道簡単地脫離,所以有防止看板顯示體 失竊的效果。 本發明的第1 1態樣所採用的壁面安裝照明看板裝置 ,如第1、3或4態樣,其中,使***被設在前述操作盤 下軌道的預定處的孔部的銷構件可對於該孔部轉動,且將 通過彈性構件而與前述壁下部支承軌道卡合在該銷構件的 預定位置的卡合爪裝設成可朝垂直於前述操作盤下軌道長 度方向轉動,且當不與前述壁下部支承軌道卡合時,至到 達該卡合爪的長度方向與前述操作盤下軌道的長度方向成 爲平行的退避位置爲止使前述卡合爪轉動,並且,在前述 操作盤下軌道的下方部長度方向設有顎部,並使其卡合在 -15- (11) 1242175 前述壁下部支承軌道長度下端,來防止因下方的風壓而浮 上。 藉由此結構,因爲使***被設在前述操作盤下軌道的 預定處的孔部的銷構件可對於該孔部轉動,且將通過彈性 構件而與前述壁下部支承軌道卡合在該銷構件的預定位置 的卡合爪裝設成可朝垂直於前述操作盤下軌道長度方向轉 動,且當不與前述壁下部支承軌道卡合時,使到達該卡合 爪的長度方向與前述操作盤下軌道的長度方向成爲平行的 退避位置爲止使前述卡合爪轉動,並且,在前述操作盤下 軌道的下方部長度方向設有顎部,並使其卡合在前述壁下 部支承軌道長度下端,所以壁下部支承軌道的卡合時以外 ,卡合爪的長度方向是退避至成爲與操作盤下軌道的長度 方向平行的退避位置而可以防止當搬運時等因卡合爪與其 他物品接觸而破損等的事故,並且可以防止因風壓所導致 的看板顯示體的飛散事故。 本發明的第1 2態樣所採用的壁面安裝照明看板裝置 ,如第1、3或4態樣,其中,設在前述合成樹脂中空體 操作盤的後方看板體安裝面且供裝設前述操作盤上軌道及 前述操作盤下軌道用的熱膨脹應力緩衝台座用的安裝座部 ,是形成可收容從該熱膨脹應力緩衝台座的底部至讓前述 操作盤上下軌道往該熱膨脹應力緩衝台座***的***座部 爲止的凹陷座面,並且,在對應含有安定器的照明機器的 部分形成凹陷部。 藉由此結構,因爲設在前述合成樹脂中空體操作盤的 -16- 1242175 (12) 後方看板體安裝面且供裝設前述操作盤上軌道及前述操作 盤下軌道用的熱膨脹應力緩衝台座用的安裝座部,是形成 可收容從該熱膨脹應力緩衝台座的底部至讓前述操作盤上 下軌道往該熱膨脹應力緩衝台座***的***座部爲止的凹 陷座面’並且,在對應含有安定器的照明機器的部分形成 凹陷部’所以可以將合成樹脂中空體操作盤的後方看板安 裝面及壁面之間的間隙盡可能減少至所期的間隙,而可以 控制因此間隙過大所發生問題,例如:構造上的不安定性 ’風的影響等至最小限度,並且,可以給與在外觀上的確 實性、安定性及美觀,因此,外表的印象佳。 本發明的第1 3態樣所採用的壁面安裝照明看板裝置 ’如第1、3或4態樣,其中,將前述長的支承軌道及將 前述照明器具配置於正確位置的前述校位件,是具備:卡 合在壁上部支承軌道的懸架部、及卡合在壁下部支承軌道 的支承部、及位在中央的螢光燈支架支承件,且每一個看 板顯示體的操作盤使用2組的前述校位件,當壁上部支承 軌道的定位固定之後,藉由將前述校位件懸架在前述壁上 部支承軌道而被固定在前述壁面,就可正確且自動地決定 壁下部支承軌道的安裝位置以及前述照明器具的配設位置 〇 藉由此結構,因爲首先,將壁上部支承軌道的安裝位 置正確地決定並加以固定後,再藉由將校位件懸架在壁上 部支承軌道而固定在壁面上,就可以正確且自動地決定壁 下部支承軌道的安裝位置以及前述照明器具的配設位置, -17- (13) 1242175 所以壁下部支承軌道、照明器"具的配°又^置,不諸女個別 地決定其安裝位置。因此,可以節省爲了決定壁下部支承 軌道的安裝位置以及前述照明器具的配设^置所需的勞力 ,並且,因爲各的構件的配設位置之間皆一致’所以看板 顯示體,在外觀上也具有確實性、安定性及美觀’而可以 給與優秀外表的印象。 本發明的第1 4態樣所採用的壁面安裝照明看板裝置 ,如第1、2、3或4態樣,其中,前述長的屋簷材,具備 :在其端面部供***用來連結屋簷材之間的金屬零件用的 ***顎部、及可接受從供固定用來覆蓋端剖面部的構件用 的固定孔及合成樹脂中空體操作盤所透過的光並使其朝下 方擴散反射的曲面部。 藉由此結構,因爲設有在其端面部供***用來連結屋 簷材之間的件用的***顎部,所以屋簷材之間的連結可以 簡単且確實地進行,進一步因爲設有可接受從合成樹脂中 空體操作盤透過的光並使其朝下方擴散反射的曲面部,所 以有在夜間可以充分利用從合成樹脂中空體操作盤透過的 光的效果。 【實施方式】 茲佐以圖面說明本發明之壁面安裝照明看板裝置。 第1圖,是本發明的1實施形態的壁面安裝照明看板 裝置的部分剖面圖,第2圖,是看板顯示體2〇的背面立 體圖。第1圖及第2圖中,1〇是看板顯示體支承手段, -18- (14) 1242175 此看板顯示體支承手段1 〇,是由:呈水平安裝在壁面上 部的壁上部支承軌道1 1、對於壁面下部的壁上部支承軌 道1 1呈平行安裝的壁下部支承軌道1 2、照明器具1 6、嵌 接有供決定壁上部支承軌道1 1及壁下部支承軌道1 2的定 位及照明器具1 6的位置用的螢光管支架支承件1 3 3的校 位件1 3、嵌合在壁上部支承軌道丨1的長的屋簷材〗5所 構成。又,如第2圖所示,20是看板顯示體,此看板顯 示體20,是由:合成樹脂中空體操作盤23、安裝在合成 樹脂中空體操作盤23的上部的操作盤上軌道21、安裝在 合成樹脂中空體操作盤23的下部的操作盤下軌道22、隔 著應力緩衝彈性粘接雙面膠帶3 7而被固定在合成樹脂中 空體操作盤23且***操作盤上軌道21及操作盤下軌道 22而與合成樹脂中空體操作盤23及操作盤上軌道21及 操作盤下軌道22接合的熱膨脹應力緩衝台座24所構成。 合成樹脂中空體操作盤23是由前方顯示面部231及 後方看板體安裝面23 2及含有凹陷部的螢光透過面23 3所 構成,且由例如:丙烯樹脂、聚碳酸酯樹脂等的光透過性 的硬質合成樹脂的成形體所組成。此合成樹脂中空體操作 盤23,是由貼合此前方顯示面部23 1及後方看板體安裝 面232等而獲得。在後方看板體安裝面232的中央部,設 有也就是與長度方向平行的燈收容用凹陷部的螢光透過面 233、將照明器具的安定器設在中央部用的安定器配置用 凹陷部26。在後方看板體安裝面23 2的所期位置設有通 氣口 234,且在此通氣口 234添付有通氣薄片235。 (15) 1242175 第3圖(a)是顯示操作盤下軌道22的前視圖,第3圖 (b)是第3圖(a)的A-A線剖面圖,第3圖(c)是第3圖(a) 的B - B線剖面圖。此操作盤下軌道2 2,是***前述熱膨 脹應力緩衝台座24用的,且在其中央部設有缺口部222 。此缺口部222,具有將合成樹脂中空體操作盤23移往 操作盤下軌道22的中央部位置的定位功能。 然而,在操作盤下軌道22的預定處,設有孔部221 ,且***有可對於此孔部22 1轉動的銷構件27。且,在 銷構件27的預定位置,隔著彈性構件28使卡合在壁下部 支承軌道12的卡合爪29被裝設成可旋轉且垂直於操作盤 下軌道22長度方向。此卡合爪29,在與壁下部支承軌道 12的卡合時以外,其長度方向是可移動至與操作盤下軌 道22的長度方向平行的退避位置爲止。且,在操作盤下 軌道22的下方長度方向,設有顎部22d(後述),並與壁下 部支承軌道1 2的長度下端卡合。藉由以上的結構,壁下 部支承軌道12的卡合時以外,卡合爪29的長度方向是退 避至與操作盤下軌道22的長度方向平行的退避位置,而 可以防止在搬運時等因卡合爪29與其他接觸而破損等的 事故,並且,可以防止因風壓使看板顯示體20飛散的事 故。 第4圖(a)是操作盤上軌道210前視圖,第4圖(b)是 第4圖(a)的A-A線剖面圖。此操作盤上軌道21,是*** 前述熱膨脹應力緩衝台座24用的,在其中央部設有缺口 部2 1 2。此缺口部2 1 2,具有將合成樹脂中空體操作盤23 -20- (16) 1242175 定位在操作盤上軌道2 1的中央部位置的功能。 第5圖(a)是壁上部支承軌道1 1的前視圖,第5圖 (b)是壁上部支承軌道11的側面圖,第5圖(c)是壁下部支 承軌道12的前視圖,第5圖(d)是壁下部支承軌道12的 側面圖。此壁上部支承軌道1 1,是將看板顯示體2 0懸架 在壁上部的支承軌道,且在所期位置有供螺固於壁面上用 的複數孔部11 1。如第5圖(b)所示,在壁上.部支承軌道 11的上部,形成有支撐屋簷材15的屋簷材根部15 1(後述) 的下端部的支撐導引溝1 1 e。且,在壁上部支承軌道1 1 的下部,形成有卡合前述校位件1 3的懸架部1 3 1 (後述)的 懸架顎部1 1 f。且,壁下部支承軌道1 2,是將看板顯示體 20卡合在壁下部的支承軌道,且在所期位置設有供螺固 在壁面用的複數孔部121。且,如第5圖(d)所示,在壁下 部支承軌道1 2的上部,形成有卡合在前述校位件1 3的卡 合部1 3 2 (後述)的卡合顎部1 2 d。 第6圖(a)是屋簷材根部151的前視圖,第6圖(b)是 屋簷材根部151的側面圖,第6圖(c)是屋簷材簷部152 的前視圖,第6圖(d)是屋簷材簷部1 5 2的側面圖。此屋 簷材根部151的下端部,是卡合在前述壁上部支承軌道 11的上端的支撐導引溝lie。然而,在第6圖(c)及(d)的 所示屋簷材簷部1 5 2,是卡接在屋簷材根部丨5 1的曲面部 1 5 1 a的先端部。此曲面部1 5丨&,是反射來自下方的看板 顯示體2〇的光用的反射構件。 第7圖,是顯示屋簷材15的安裝的說明圖。如圖所 -21 - (17) 1242175 示,屋簷材1 5,是由小螺絲而被固定在壁面上,並且, 屋簷材根部1 5 1的下端部,是嵌合在壁上部支承軌道11 的上端的支撐導引溝1 le。 第8圖,是顯示角落部的角落部屋簷材1 7的安裝狀 態的說明圖。此角落部屋簷材1 7,是將長的屋簷材的角 落部連接在角落,且此角落部屋簷材17,是由角落部嵌 合在前述壁上部支承軌道11的支撐導引溝lie。 第9圖,是顯示角落部上的壁上部支撐件3 1及壁下 部支撐件3 2的安裝狀態的說明圖。如圖所示,壁上部支 撐件31,是藉由貫通孔312而被螺固在壁上部支承軌道 1 1的端部溝孔1 1 1,且壁下部支撐件3 2,是藉由貫通孔 3 22而被螺固在壁下部支承軌道12的端部溝孔121。 第1 〇圖,是顯示角落部上的角落部看板顯示體3 5的 側面圖。在圖中,36是角落部合成樹脂中空體操作盤, 3 7是衝擊應力緩衝彈性粘接帶,3 3是操作盤上部安裝件 ,3 4是操作盤下部安裝件。操作盤上部安裝件3 3,是使 壁上部支撐件31(第9圖)的螺栓部311插通其孔部33 1而 被螺固,且操作盤下部安裝件34,是使其螺栓部341插 通壁下部支撐件32(第9圖)的孔部321而被螺固。 第1 1圖,是顯示屋簷材端部的處理的立體圖。在圖 中,15是屋簷材,並由屋簷材根部151及屋簷材簷部152 所構成,屋簷材1 5的端剖面是由屋簷端蓋1 8所覆蓋。在 屋簷材根部1 5 1及屋簷材簷部1 5 2的對應部設有螺栓用的 孔。 -22- (18) 1242175 第1 2圖,是顯示壁上部支承軌道1 1及壁下部支承軌 道1 2的端部的處理立體圖。在壁上部支承軌道1 1的端部 螺固有壁上部支撐件31。311是設在壁上部支撐件31的 上部的螺栓部。且,在壁下部支承軌道1 2的端部螺固有 壁下部支撐件3 2。3 2 1是設在壁下部支撐件3 2的下部的 孔部。 第1 3圖,是顯示端部看板顯示體3 8的側面圖。在圖 中,3 9是端部合成樹脂中空體操作盤,3 3是插通壁上部 支撐件3 1 (第9圖)的螺栓部3 1 1而被螺合的操作盤上部安 裝件,34是使其螺栓部341插通壁下部支撐件32(第9圖) 的孔部3 2 1而被螺合的操作盤下部安裝件。3 7是衝擊應 力緩衝彈性粘接帶。然而,壁上部支撐件3 1、壁下部支 撐件3 2、操作盤上部安裝件3 3、操作盤下部安裝件3 4, 對於角落部合成樹脂中空體操作盤及端部合成樹脂中空體 操作盤爲共通零件。 第1 4圖,是顯示角落部上的角落部看板顯示體3 5的 安裝的說明圖。角落部看板顯示體3 5的操作盤上部安裝 件3 3的孔部3 3 1是由壁上部支撐件3 1的螺栓部3 1 1所插 通而被螺合,且操作盤下部安裝件34是使其螺栓部341 插通壁下部支撐件32的孔部321而被螺合。 第1 5圖,是顯示端部在的端部看板顯示體的安裝的 說明圖。端部看板顯示體38的操作盤上部安裝件33的孔 部3 3 1是由壁上部支撐件3 1的螺栓部3 1 1所插通而被螺 合’且操作盤下部安裝件34是使其螺栓部341插通壁下 -23- (19) 1242175 部支撐件3 2 1的孔部而被螺合。 第1 6圖,是顯示校位件1 3的配置的說明圖。校位件 1 3是每一看板顯示體各配置二條。1 1是壁上部支承軌道 ,校位件1 3是由懸架部1 3 1懸架在壁上部支承軌道1 1 ° 1 2是壁下部支承軌道,校位件1 3的卡合部1 3 2是卡合在 壁下部支承軌道1 2。1 6是照明器具,照明器具1 6是由燈 161、燈支架162、安定器163所構成。照明器具16是使 位在壁上部支承軌道1 1及壁下部支承軌道1 2的中間位置 地由裝設在校位件1 3的中央部的螢光燈支架支承件1 3 3 來使其位置被決定。 第17圖(a)及第17圖(b),是顯示操作盤上軌道21對 於壁上部支承軌道1 1的卡接的剖面圖。且,第1 8圖(a) 及第18圖(b)是顯示有關本發明的1實施形態的操作盤下 軌道22對於壁下部支承軌道1 2的卡接的剖面圖。壁上部 支承軌道11、壁下部支承軌道12、操作盤上軌道21、操 作盤下軌道是具有如各圖所示的端剖面構造,例如,由長 的鋁按壓出模材等組成。1 1 d是懸架校位件1 3的懸架部 1 3 1用的懸架顎部,1 2d是卡合在校位件1 3的卡合部1 3 2 用的卡合顎部。對於壁上部支承軌道11及壁下部支承軌 道I2,爲了結合看板顯示體20,首先如第17圖(a)所示 ,以將操作盤上軌道2 1的卡合板部2 1 a朝斜下方傾斜的 姿勢,***壁上部支承軌道1 1的卡合凹陷部1 1 a的下側 。接著成爲回復至傾斜的位置,即,在第1 7圖(b)的狀態 的話,操作盤上軌道21的卡合溝部21b會卡合在壁上部 -24- (20) 1242175 支承軌道1 1的支撐端1 1 b,並以支撐端1 1 b爲支點轉動 ,卡合板部2 1 a的先端部是與卡合凹陷部1 1 a卡合,且壁 上部支承軌道1 1的抵接面1 1 c是與操作盤上軌道2 1的抵 接面2 1 c抵接。由此,合成樹脂中空體操作盤23是隔著 ^ 操作盤上軌道2 1而被懸架在壁上部支承軌道1 1。 . 隔著操作盤上軌道2 1將合成樹脂中空體操作盤23懸 架在壁上部支承軌道1 1的話,如第1 8圖(a),操作盤下 軌道22的第1抵接面22a及第2抵接面22c分別卡合在 φ 壁下部支承軌道12的第1抵接面12a及第2抵接面12c ,卡合爪29卡合在壁下部支承軌道12的卡合突起12b, 看板顯示體20是確實地與壁上部支承軌道1 1及壁下部支 承軌道1 2結合。對於這種結合狀態,卡合突起1 2b是卡 合在卡合爪29的卡合凹部,並且,卡合突起下端部I2e 是與卡合顎部22d抵接。因此,使操作盤下軌道22對於 壁下部支承軌道12呈圖示的垂直方向以及水平方向的移 動被妨礙,而可安定地被固定。 Φ 第19圖,是有關對於操作盤下軌道22的合成樹脂中 空體操作盤的定位的說明圖。在圖中,222是設在操作盤 下軌道22的所期位置的缺口,24是熱膨脹應力緩衝台座 · ’ 3 7是衝擊應力緩衝彈性雙面膠帶。在此熱膨脹應力緩 . 衝台座24,定位銷構件243是被植設固定在孔部241,且 定位銷構件243是與缺口 222隔有一些游隙地卡合。.且, 242是讓鉚釘等的固定構件所插通的孔部,此孔部242是 爲了接合合成樹脂中空體操作盤23及熱膨脹應力緩衝台 -25- (21) 1242175 座24所使用。合成樹脂中空體操作盤23是隔著熱膨脹應 力緩衝台座24與操作盤下軌道22隔有一些游隙地在其中 央部由定位銷構件2 4 3所定位。然而,操作盤上軌道2 1 及合成樹脂中空體操作盤23的定位,也是由與定位銷構 件隔有一些游隙的缺口的關係來決定。 第2 0圖,是顯示屋簷材1 5的組裝狀態用的剖面圖。 如圖所示,屋簷材15是由屋簷材根部151及屋簷材簷部 152所構成,且藉由將接合屋簷材簷部152彼此用的屋簷 鲁 材簷部接合構件1 5 3******顎部1 5 4而將簷部之間接合 組裝。 第21圖(a),是顯示看板顯示體脫離防止手段51的 看板顯示體的部分側面圖。第2 1圖(b),是顯示其安裝狀 態的立體圖。如第21圖(a)及第21圖(b)所示,看板顯示 體脫離防止手段51是被螺合在屋簷材根部151的預定處 而與操作盤上軌道21卡合,而妨礙操作盤上軌道21的轉 動。 鲁 接著,對於本發明的壁面安裝照明看板裝置的安裝方 法的詳述。第22圖,是顯示有關本發明的一實施形態的 壁面安裝照明看板裝置的組裝方法的流程圖。階段S 1中 · ,進行供安裝壁上部支承軌道11於壁面上用的水平校正 。在此水平校正前,實施基礎尺寸的確認及垂直確認。階 段S2中,以角落爲起點,將壁上部支承軌道1 1沿著水平 基準墨線由適合於壁構造的小螺絲所固定。在壁上部支承 軌道11的嵌合部分,需充分注意不可有段差或間隙。此 -26- (22) 1242175 時,要小心壁上部支承軌道1 1的上下方向是否無誤。 階段s 3中,將校位件1 3以懸架部1 3 1懸架在壁上部 支承軌道1 1的預定的位置並以指定的間距由附屬的小螺 絲固定。階段S4中,將壁下部支承軌道1 2卡合在校位件 1 3的卡合部丨3 2,且將壁上部支承軌道1 1及壁下部支承 軌道1 2的間距由間距測定器進行測量來確認預定間距有 被確保後,將壁下部支承軌道1 2由適合於壁構造的小螺 絲固定。這時,爲了正確地校位一定要從角落部開始。且 ,要小心壁下部支承軌道1 2的上下方向是否無誤。 階段S5中,將角落部屋簷材17***壁上部支承軌道 1 1的上端的卡合部,且由適合於壁構造的小螺絲所固定 。接著,將直線部分的屋簷材根部1 5 1連結在角落部屋簷 材1 7且由適合的小螺絲所固定。屋簷材彼此的連結部是 貼付有鋁帶。接著,將屋簷材簷部152安裝在屋簷材根部 1 5 1並將屋簷材簷部接合構件1 5 3的***部由小螺絲所固 定。接著,將屋簷端蓋1 8由附屬的小螺絲固定在屋簷材 1 5的端剖面後,即完成屋簷材1 5。 階段5 6中,將照明器具1 6安裝於校位件1 3。首先 ,將燈支架162與安定器163 —同安裝於校位件13的支 架安裝位置後,組裝燈1 6 1。此時進行漏電檢查。 對於階段S7,進行角落部看板顯示體3 5的安裝。首 先,將壁上部支撐件3 1螺合於壁上部支承軌道1 1的端部 。又將壁下部支撐件3 2螺合於壁下部支承軌道1 2的端部 。接著,將角落部合成樹脂中空體操作盤3 6的上部安裝 -27· 1242175 (23) 件3 3讓壁上部支撐件3 1的螺栓部插通後,將操作盤下部 安裝件3 4的螺栓部插通壁下部支撐件3 2的孔部,將雙方 螺合。 階段S8中,進行長的直線部的看板顯示體20的安裝 。爲了使具有與設在操作盤下軌道22的預定處的壁下部 支承軌道1 2的卡接手段的功能,而從與合成樹脂中空體 操作盤23的操作盤下軌道的長度方向平行的退避位置至 與操作盤下軌道22的長度方向垂直的位置爲止,使銷構 件27轉動。然而,卡合爪29,除了壁下部支承軌道12 的卡接時以外,使卡合爪29的長度方向退避至與操作盤 下軌道22的長度方向平行的退避位置,來防止因搬運時 等卡合爪29與其他物品接觸而破損等的事故。 將看板顯示體20傾斜在壁上部支承軌道1 1的預定 位置由壁上部支承軌道11及操作盤上軌道21的長度方向 將雙方卡合,使用組裝棒(組裝工具),將看板顯示體20 傾斜的狀態下,從下方確認壁上部支承軌道1 1及操作盤 上軌道2 1的卡合狀態是否是被正確收納的狀況,確認後 ,將組裝棒從合成樹脂中空體操作盤2 3的下部取出後, 將看板顯示體20轉動而關閉。只被保持在關閉狀態,壁 上部支承軌道1 1的長的突條及操作盤上軌道2 1的長的突 條相互卡接,且看板顯示體20成爲無法從壁上部支承軌 道1 1取下的狀態。然而,看板顯示體20的組裝時,因爲 採用固定於看板顯示體20的***作盤上軌道21及操作盤 下軌道22是沿著看板顯示體支承手段1 0的平行的壁上部 -28- (24) 1242175 支承軌道1 1及壁下部支承軌道1 2且可滑動的結構,所以 以角落部爲基點,使操作盤上軌道21及操作盤下軌道22 ,一起朝角落側靠緊,並依序地配置。固定於看板顯示體 2〇的操作盤上軌道21及操作盤下軌道22的全長,因爲 採用比合成樹脂中空體操作盤23全長要長的結構,且因 爲看板顯示體20的合成樹脂中空體操作盤23彼此是不會 接觸,所以合成樹脂中空體操作盤23的變形不會發生, 而可完成較佳的外觀。 階段S 9中,進行端部看板顯示體3 8的安裝。首先’ 將壁上部支撐件3 1螺合於壁上部支承軌道1 1的端部。又 ,將壁下部支撐件3 2螺合於壁下部支承軌道1 2的端部。 接著,將端部合成樹脂中空體操作盤3 9的上部安裝件3 3 使壁上部支撐件3 1的螺栓部3 1 1插通後,將操作盤下部 安裝件3 4的螺栓部插通於壁下部支撐件3 2的孔部3 2 1, 將雙方螺合。 階段S 1 0中,進行長的直線部的最後的看板顯示體 20的安裝及全看板顯示體20的開閉檢查。最後的看板顯 示體20的安裝是依據階段S8。然而,將看板顯示體20 關閉時,不取出組裝棒,而掛入另一個校位件1 3,使可 在維修時使用。進行全看板顯示體20的開閉動作檢查。 將也就是與設在合成樹脂中空體操作盤23的操作盤下軌 道22的預定處的壁下部支承軌道1 2的卡接手段的銷構件 27從下往上按壓,將卡接手段的作用解除,將合成樹脂 中空體操作盤23朝前打開,即使不將銷構件27從下往上 -29- (25) 1242175 按壓也可檢查是否可將合成樹脂中空體操作盤23輕輕地 關閉且調查卡接手段的功能。 階段S 1 1中,進行看板顯示體脫離防止手段的安裝。 使妨礙可轉動於壁上部支承軌道1 1上地卡合的操作盤上 軌道2 1的轉動動作而將防止看板顯示體的脫離的將看板 顯示體脫離防止手段5 1裝設在對應各合成樹脂中空件操 作盤的中央的位置且設在屋簷材根部1 5 1的下方的預定位 置,使看板顯示體脫離防止手段5 1固定於屋簷材根部 · 1 5卜 (發明之效果) 如以上說明,依據本發明的第1態樣所採用的壁面安 裝照明看板裝置,因爲設有將壁上部支承軌道及壁下部支 承軌道及照明器具配置在正確位置的校位件,且將看板顯 示體各形成單元結構,而可裝卸地卡接固定在壁上部支承 軌道及壁下部支承軌道,所以輕量,且安裝或取下所需要 的時間及勞力少,而且不需擔心發生看板面材內部的污染 等,且淸掃等的維修作業是非常簡単容易,同時模樣切換 或破損等也簡単且可經濟地對應。 依據本發明的第2態樣所採用的壁面安裝照明看板裝 置,如第1態樣,因爲包含:將支承件固定在壁上部支承 軌道及壁下部支承軌道的各末端部的端剖面,且在角落部 使角落屋簷材被嵌合固定在壁上部支承軌道上且使覆蓋屋 簷材的端剖面的蓋材固定在屋簷材的端剖面上的看板顯不 -30- (26) 1242175 體支承手段;藉由隔著衝擊應力緩衝彈性構件被固定在角 落部合成樹脂中空體操作盤上的2組可滑動至抵接支承件 位置且可被螺固的安裝件而被固定的角落部看板顯示體所 形成的角落部;藉由隔著衝擊應力緩衝彈性構件被固定在 端部合成樹脂中空體操作盤上的2組可滑動至抵接支承件 位置且可被螺固的安裝件而被固定的端部看板顯示體所形 成的端部;所以即使是壁面爲預定角度的角落部及壁面的 端部,也可以使各壁面上的屋簷材及看板顯示體之間,在 構造上及外觀上變得平順。 依據本發明的第3態樣所採用的壁面安裝照明看板裝 置,如第1態樣,因爲每個看板顯示體的單元可對於看板 顯示體支承手段的平行的壁上部支承軌道及壁下部支承軌 道進行裝卸,所以安裝或取下所需的時間及勞力較少,同 時淸掃等的維修作業是非常簡単容易,對於模樣切換或破 損等也可簡単且經濟地對應。 依據本發明的第4態樣所採用的壁面安裝照明看板裝 置,如第1態樣,可以角落部爲基點,使操作盤上軌道及 操作盤下軌道一起,朝角落側靠緊,並依序地配置,所以 橫方向的微調整是可簡単地進行,而可使看板顯示體平均 地被配置。 依據本發明的第5態樣所採用的壁面安裝照明看板裝 置,如第1、3或4態樣,因爲看板顯示體的合成樹脂中 空體操作盤彼此之間不會接觸,所以合成樹脂中空體操作 盤的變形不會發生,而可以形成外觀上在也優秀的看板顯 -31 - (27) 1242175 示體。 依據本發明的第6態樣所採用的壁面安裝照明看板裝 置’如第1、3或4態樣,因爲在操作盤上軌道及操作盤 下軌道的長度方向的預定位置設有缺口,且在熱膨脹應力 · 緩衝台座,設有卡合在此缺口的卡合部材,所以操作盤上 軌道及操作盤下軌道被定位在各看板顯示體單元的左右中 央位置。 依據本發明的第7態樣所採用的壁面安裝照明看板裝 φ 置’如第1、3或4態樣,可以正確地且確實固定··熱膨 脹應力緩衝台座及操作盤上軌道或操作盤下軌道、熱膨脹 應力緩衝台座及合成樹脂中空體操作盤。 依據本發明的第8態樣所採用的壁面安裝照明看板裝 置’如第1、3或4態樣,因爲合成樹脂中空體操作盤的 長度是比安裝在校位件的燈支架乃至燈的長度更長,所以 雙方之間可有充余的空間進行位置配合,而可在相互不干 渉的狀態下進行看板顯示體的組裝。 · 依據本發明的第9態樣所採用的壁面安裝照明看板裝 置,如第1、3或4態樣,因爲合成樹脂中空體操作盤是 由單純的構件組合而成,所以可以提供各構件的成品率, ‘ 並且,具有防塵、防蟲、防水的功能。 依據本發明的第1 〇態樣所採用的壁面安裝照明看板 裝置,如第1、3或4態樣,因爲使看板顯示體無法從壁 上部支承軌道及壁下部支承軌道簡単地脫離,所以有防止 看板顯示體失竊的效果。 -32- (28) 1242175 依據本發明的第1 1態樣所採用的壁面安裝照明看板 裝置,如第1、3或4態樣,因爲使***被設在前述操作 盤下軌道的預定處的孔部的銷構件可對於該孔部轉動,且 將通過彈性構件而與前述壁下部支承軌道卡合在該銷構件 的預定位置的卡合爪裝設成可朝垂直於前述操作盤下軌道 長度方向轉動,且當不與前述壁下部支承軌道卡合時,使 到達該卡合爪的長度方向與前述操作盤下軌道的長度方向 成爲平行的退避位置爲止使前述卡合爪轉動,並且,在前 述操作盤下軌道的下方部長度方向設有顎部,並使其卡合 在前述壁下部支承軌道長度下端,所以壁下部支承軌道的 卡合時以外,卡合爪的長度方向是退避至成爲與操作盤下 軌道的長度方向平行的退避位置而可以防止當搬運時等因 卡合爪與其他物品接觸而破損等的事故,並且可以防止因 風壓所導致的看板顯示體的飛散事故。 依據本發明的第1 2態樣所採用的壁面安裝照明看板 裝置,如第1、3或4態樣,因爲設在前述合成樹脂中空 體操作盤的後方看板體安裝面且供裝設前述操作盤上軌道 及前述操作盤下軌道用的熱膨脹應力緩衝台座用的安裝座 部,是形成可收容從該熱膨脹應力緩衝台座的底部至讓前 述操作盤上下軌道往該熱膨脹應力緩衝台座***的***座 部爲止的凹陷座面,並且,在對應含有安定器的照明機器 的部分形成凹陷部,所以可以將合成樹脂中空體操作盤的 後方看板安裝面及壁面之間的間隙盡可能減少至所期的間 隙,而可以控制因此間隙過大所發生問題,例如:構造上 -33- (29) 1242175 的不安定性,風的影響等至最小限度,並且,可以給與在 外觀上的確實性、安定性及美觀,因此,外表的印象佳。 依據本發明的第1 3態樣所採用的壁面安裝照明看板 裝置,如第1、3或4態樣,因爲首先,將壁上部支承軌 道的安裝位置正確地決定並加以固定後,再藉由將校位件 懸架在壁上部支承軌道而固定在壁面上,就可以正確且自 動地決定壁下部支承軌道的安裝位置以及前述照明器具的 配設位置,所以壁下部支承軌道、照明器具的配設位置, 不需要個別地決定其安裝位置。因此,可以節省爲了決定 壁下部支承軌道的安裝位置以及前述照明器具的配設位置 所需的勞力,並且,因爲各的構件的配設位置之間皆一致 ’所以看板顯示體,在外觀上也具有確實性、安定性及美 觀’而可以給與優秀外表的印象。 依據本發明的第1 4態樣所採用的壁面安裝照明看板 裝置,如第1、2、3或4態樣,因爲設有在其端面部供插 入用來連結屋簷材之間的件用的***顎部,所以屋簷材之 間的連結可以簡単且確實地進行,進一步因爲設有可接受 從合成樹脂中空體操作盤透過的光並使其朝下方擴散反射 的曲面部’所以有在夜間可以充分利用從合成樹脂中空體 操作盤透過的光的效果。 【圖式簡單說明】 [第1圖]本發明的一實施形態的壁面安裝照明看板 裝置的部分剖面圖。 -34- (30) 1242175 [第2圖]看板顯示體的立體圖。 [第3圖](a)是操作盤下軌道的前視圖,(b)是(a)的 A-A線剖面圖,(c)是(a)的B-B線剖面圖。 [第4圖](a)是操作盤上軌道的前視圖,(b)是(a)的 A-A線剖面圖。 [第5圖](a)是壁上部支承軌道的前視圖,(b)是壁上 部支承軌道的側面圖’(c)是壁下部支承軌道的前視圖,(d) 是壁下部支承軌道的側面圖。 [第6圖](a)是屋簷材根部的前視圖,(b)是屋簷材***的側面圖,(c)是屋簷材簷部的前視圖,(d)是屋簷材簷 部的側面圖。 [第7圖]顯示角落部屋簷材的安裝的說明圖。 [第8圖]顯示屋簷材及壁上部支承軌道的嵌合狀態 的剖面圖。 [第9圖]顯示壁上部支撐件及壁下部支撐件的安裝 狀態的說明圖。 [第1 〇圖]顯示角落部看板顯示體的側面圖。 [第1 1圖]顯示屋簷材端部的處理的立體圖。 [第12圖]顯示壁上部支承軌道及壁下部支承軌道的 端部上的處理的立體圖。 [第1 3圖]顯示端部看板顯示體的側面圖。 [第I4圖]顯示角落部上的角落部看板顯示體的安裝 的說明圖。 [第1 5圖]顯示端部上的端部看板顯示體的安裝的說 -35- (31) 1242175 明圖。 [第1 6圖]顯示校位件的配置的說明圖。 [第17圖](a)及(b)是顯示操作盤上軌道對於壁上部支 承軌道的卡合剖面圖。 ^ [第18圖](a)及(b)是顯示操作盤下軌道對於壁下部支 . 承軌道的卡合剖面圖。 [第19圖]有關操作盤下軌道的說明圖。 [第20圖]供顯示屋簷材的組裝狀態用的剖面圖。 鲁 [第21圖](a)是顯示看板顯示體脫離防止手段的看板 顯示體的部分側面圖,(b)是顯示看板顯示體脫離防止手 段的安裝狀態的立體圖。 [第22圖]顯示壁面安裝照明看板裝置的安裝方法的 流程圖。 [第23圖]顯示習知的壁面安裝照明看板裝置的立體 圖。 [圖號說明] 10 看板顯示體支承手段 1 1 壁上部支承軌道 * 1 1 a 嵌合凹陷部 , lib 支撐端 11c 抵接面 lid 懸架顎部 lie支撐導引溝 -36- (32) 1242175 111 端部溝孔 12 壁下部支承軌道 12a 第正抵接面 12b 卡合突起 12 c 第2抵接面 · 1 2 d 卡合顎部 12e 卡合突起下端部 122端部溝孔 _ 13 校位件 13 1 懸架部 13 2 卡合部 1 3 3 螢光燈支架支承件 15 屋簷材 151 屋簷材根部 15 1a 曲面部 152屋簷材簷部 ® 153 屋簷材簷部接合構件 15 4 ***顎部 1 6 照明器具 ’ 1 6 1 燈 ‘ 162 燈支架 163 安定器 17 角落部屋簷材 18 屋簷端蓋 -37- (33) 1242175 20 看板顯示體 2 1 操作盤上軌道 2 1a 卡合板部 2 1b卡合溝部 2 1c 抵接面 212 缺口部1242175 (1) 发明. Description of the invention [Technical field to which the invention belongs] The present invention relates to a wall-mounted illumination kanban device, which is an internal illumination kanban device that brightly floats a kanban display by internal lighting. [Prior art] A conventional indoor-illumination type kanban device with wall surface illumination 2 is a perspective view of a conventional wall-illumination kanban device < 1 00 is a wall lighting kanban device, 1 ο 1 is a kanban display 彳 drop portion, and 103 is an end portion. In the following, the conventional wall photo structure, the production of wall kanbans, the installation work and maintenance of these), and their disassembly will be described separately. (1) The structure of the conventional wall kanban (A) The conventional wall kanban is composed of a metal frame provided with a metal frame, and a frame connected by other screws is provided at the left and right ends of the wall kanban. The metal frame is fixed in two directions to prevent light leakage. On the other side, the inner panel is fixed to the frame covered by anchor bolts on the front side. On the inside of the back panel, a plurality of photographic parts are screwed. Furthermore, the front surface is provided with a wall surface constituted by a supporting member provided with a body on the upper and lower frames, and the weight is 30 to 50 kg. This is especially relevant for wall-mounted kanban devices. In Fig. 23, 豊, 102 are the management of the angle kanban device. The rectangular box-shaped metal frame is fixed on the back surface by a rivet step, and the machine is embedded by gold. (2) 1242175 (B) Kanban display body 1 〇 1 is an upper and lower metal frame that fixes a light-transmitting synthetic resin panel suspension on a wall-mounted kanban frame and two left and right sides of a synthetic resin panel. The cross-section makeup metal frame is composed of (C) The kanban body that is in conflict with the corner portion 102 (the portion that is bent to 90 ° and 135 °) and the end portion 103 (the end portion) is installed by a pair of wall surfaces A metal frame and a kanban display frame are assembled, and the kanban body is installed on the wall surface. (D) The long eaves material is installed along the wall above the metal frame on the wall surface, and the long eaves material is It is arranged to be fixed on the wall. (2) Production of the conventional wall kanban (A) Metal cutting and bending of metal materials, bending, perforation, welding, lock screws, nail rivets and other metal processing and assembly processing. Lighting equipment Installation and lighting equipment (B) In the kanban display, the metal frame of the light-transmitting synthetic resin panel must be assembled and assembled at the same time. Although the weight of each part is not heavy, it is necessary to make it large. Lifting group but (3) the conventional wall kanban installation work (a) will start with a set of kanban bodies that are in contact with the corner portion 102 (the part that twists into 90 ° and 135 °) with anchor bolts, and then start Wall kanban installation work. Use this as a base point to support the adjacent wall kanban installation frame and find out the position of the through hole of the connecting skeleton of each other. Then insert the screws to temporarily fix it. Then confirm the position and fix it on the wall with anchor bolts. It will be temporarily fixed by screws. (3) 1242175 Repeat this procedure, connect in sequence, arrange all the wall metal frames, complete the connection and wiring of each lighting device, and then perform the lighting test again. (B) Put the eaves on the top of the metal frame and fix it on the wall with small screws. < (C) Suspension of the kanban display body above the kanban body of each wall surface and fixing it from below to finish the construction. The kanban display is a pair of metal frames. _ (4) The management (maintenance) of the conventional wall kanban (A) The internal sweep of the kanban body is to open the display body individually and take out each time the sweep is performed. (B) Metal bends, perforations, and welds can rust due to the penetration of water or dust. Maintenance includes this derusting and anti-rust repair. (5) The disintegration of the conventional wall kanban ® (A) requires the same labor and time as the construction. The occurrence of rust has progressed to the place where the hand can not reach, and it is easy to bend and deform when it is dismantled. As a result, it is treated as industrial waste. Further classification of recyclable waste ‘requires melting and compression of metal parts. [Summary of the Invention] (Problems to be Solved by the Invention) However, according to the conventional wall surface kanban device described above, there are the following problems @ -8-(4) 1242175. (1) First of all, in the production of wall signage, there is a problem that the lighting test is required in addition to the installation and wiring of lighting equipment because the wires are damaged during metal processing. (2) In addition, although the parts are not heavy, they will still become a heavy weight when assembled. Therefore, it is necessary to perform the work by a male worker, and there will be a problem that causes a work obstacle for female workers. . (3) In addition, the operation of installing a metal frame on the wall surface is a dangerous heavy object connection operation. Two operators support the wall surface to install the metal frame, and one operator performs the connection operation in an environment where it is difficult to establish a foothold. Therefore, it is very labor-intensive, and there is a problem that the cost increases. (4) In addition, it is difficult to select the horizontal accuracy due to the deformation caused by the locking at the time of connection, and even a slight error at the initial time can cause problems that affect the overall appearance of the wall surface. (5) In the installation of eaves materials, the kanban installation frame projecting forwards is difficult to work because it is located directly in front of the operator, and the movement of the lateral movement will cause the end edge of the metal frame to catch the work clothes. Can cause unexpected problems. (6) In addition, the kanban display body is suspended above the kanban body on each wall surface and fixed from below. Each pair of metal frames cannot slide and approach each other, so if a gap occurs between them, It is difficult to make corrections at the time, and there are problems such as deformation or poor horizontal accuracy that are not found until the end. (7) Moreover, although the internal sweep of the kanban body is performed by taking out the display body and taking it out individually each time the sweep is performed, because the inside of the kanban body is surrounded by -9-(5) f 1242175 metal skeleton, Therefore, the sweeping and removing work of dust, dead bodies, rust, etc. in the interior is not easy to perform, and there is a problem that it requires much labor and time. (8) In addition, metal bends, perforations, and welds can cause rust due to infiltration of water or dust. Therefore, the repair includes this derusting and rust prevention repair, but it is within the reach of the hand. The make-up is not exactly the problem. (9) Further, the disassembly of the conventional wall kanban requires labor and time equivalent to the difficulty of construction. In addition, because the occurrence of rust has reached the part beyond the reach of the hand, it is easy to bend and deform when it is dismantled, and there is a problem that the quality of reuse cannot be guaranteed. As a result, it has been treated as industrial waste, and further, the classification of recyclable waste requires problems such as melting and compression of metal parts. In order to solve the above-mentioned problem, an object of the present invention is to provide a maintenance operation that is lightweight and requires less time and labor for installation or removal, and does not need to worry about the occurrence of contamination and the like inside the kanban surface, as well as cleaning operations. It is very simple and easy, and at the same time, it is easy and economical to install a lighting kanban device for the wall surface that can also be changed or damaged. (Means for Solving the Problems) In order to achieve the above-mentioned object, the wall surface-mounted lighting kanban device used in the first aspect of the present invention is characterized in that it includes at least: a wall surface, horizontally provided with upper wall support rails parallel to each other, and The lower wall support rail is provided with the lighting equipment at the middle of the upper wall support rail and the lower wall support rail, and the upper wall support rail and the lower wall support rail and the illuminator are arranged separately.-1242175 (6) The positioning device is provided at a correct position at a predetermined distance, and is provided with a kanban display body supporting means for a long eaves material arranged to be fitted into the supporting track on the upper wall; at a predetermined corresponding position on the supporting track on the upper wall, After engaging with the longitudinal direction of the upper track of the wall, it is inserted and fixed to the track on the operating panel that can be pivoted and removably inserted through the thermal expansion stress buffering stand fixed to the synthetic resin ^ hollow body operating panel, and the wall is provided with the wall. The kanban display on the lower track of the removable operation panel is a function of the lower support rail abutting and engaging. _ With this structure, since there are positioning elements for arranging the upper wall support rail, the lower wall support rail and lighting fixtures at the correct positions, and each of the kanban display bodies forms a unit structure, it can be detachably snap-fixed to the wall The upper support track and the lower wall support track are lightweight, and require less time and labor to install or remove, and there is no need to worry about contamination inside the kanban surface, and maintenance work such as cleaning is very simple and easy. At the same time, the appearance change or damage is also simple and economical. The second aspect of the present invention adopts a wall surface-mounted lighting kanban device. As in the first aspect, it includes: kanban display support means, forming: a corner portion with a predetermined angle on the wall surface as a base point, horizontally provided with each other The upper wall supporting track and the lower wall supporting track are parallel, and the upper wall supporting member and the lower wall supporting member of the lower wall supporting track are respectively fixed to the upper wall supporting track and the lower wall supporting track. An end cross section of each end portion, and a corner eave material is fitted and fixed to the upper wall support rail for the corner part, and an end cross section of the eave material is covered for the ends of the upper wall support rail and lower wall support rail. Eaves end -11-1242175 (7) The cover is fixed to the end section of the eaves material; 2 sets of synthetic resin hollow body operation panel fixed to the corner via the impact stress buffering elastic member can be slid to abut the support position It can be screwed, and the corner display board is fixed; the elastic member is fixed at the end through the impact stress buffering elastic member. The two sets of the resin hollow body operating panel can be slid to the abutting support position and can be screwed, and the fixed end is a kanban display. With this structure, it is because the support is fixed to the end section of each end portion of the upper wall support rail and the lower wall support rail, and the corner eaves material is fitted and fixed to the upper wall support rail at the corner portion, so that The cover material covering the end section of the eaves material is a kanban display body supporting means fixed to the end section of the eaves material; 2 sets of slidable operation plates fixed to the corners of the synthetic resin hollow body through an impact stress buffering elastic member are slidable The corner portion formed by the kanban display body which is fixed to the support position and can be fixed by the screwing fixture; it is fixed on the end synthetic resin hollow body operation plate via an impact stress buffering elastic member 2 sets of end parts that can be slid to the position of the support and can be fixed by the screwed mounting parts; therefore, even the corners of the wall surface with a predetermined angle and the end of the wall surface, It is also possible to smooth the structure and appearance between the eaves material and the kanban display on each wall surface. According to the third aspect of the present invention, the wall-mounted lighting kanban device used in the third aspect is the same as the first aspect, wherein the upper track of the operation panel and the lower track of the operation panel are fixed to the display panel via a thermal expansion stress buffer stand. The parallel upper wall supporting rails and the lower wall supporting rails which can be attached to and detached from the support means for the display panel are parallel to each other. -12- (8) 1242175 With this structure, since each unit of the kanban display body can attach and detach the parallel upper wall support track and lower wall support track of the support means of the kanban display body, it is necessary to install or remove the required Less time and labor. At the same time, maintenance work such as sweeping is very simple and easy. It can also easily and economically respond to changes in appearance or damage. According to the fourth aspect of the present invention, the wall-mounted lighting kanban device used in the fourth aspect is the same as the first aspect, wherein the upper track of the operation panel and the lower track of the operation panel are fixed to the display panel via a thermal expansion stress buffer stand. It can slide along the wall upper support rail and the wall lower support rail which are parallel to each other in the aforementioned kanban display support means. With this structure, the corner portion can be used as a base point, so that the upper track of the operation panel and the lower track of the operation panel can be tightened toward the corner side and arranged in sequence. Therefore, the fine adjustment in the horizontal direction can be simplified and the kanban can be made. The display volume is evenly configured. The wall-mounted lighting kanban device used in the fifth aspect of the present invention is as in the first, third, or fourth aspect, wherein the track on the operation panel and the operation panel of the kanban display are fixed to each other via a thermal expansion stress buffer stand. The total length of the lower rail is longer than the total length of the aforementioned synthetic resin hollow body operation panel. With this structure, since the synthetic resin hollow body operation panels of the kanban display body do not contact each other ', deformation of the synthetic resin hollow body operation panel does not occur, and a kanban display body which is also excellent in appearance can be formed. The wall-mounted lighting kanban device used in the sixth aspect of the present invention is, as in the first, third, or fourth aspect, 'wherein' is fixed at -13-12242175 on the kanban display body.) The track on the operation panel and the operation panel. A notch is provided at a predetermined position of the lower rail, and a hole portion for fixing and fixing a pin member engaged with the notch is provided on the thermal expansion account stress buffer base. With this structure, since a notch is provided at a predetermined position in the longitudinal direction of the upper track of the operation panel and the lower track of the operation panel, and the thermal expansion stress buffer seat _ is provided with an engaging member that engages with this notch, the track on the operation panel and the The lower track of the operation panel is positioned at the left and right center positions of each kanban display body unit. According to the seventh aspect of the present invention, the wall-mounted lighting kanban device used in the seventh aspect is as in the first, third, or fourth aspect, wherein the thermal expansion stress buffer stand is provided for inserting the upper track of the operation panel and the lower track of the operation panel. A slightly C-shaped jaw claw, and at the abutment portion of the thermal expansion stress buffer stand and the synthetic resin hollow body operating panel, a rivet and the like are used to separate the impact stress buffer elastic double-sided adhesive tape when fixing both sides. Fixing holes for both sides. With this structure, it can be accurately and surely fixed: the thermal expansion stress relief base and the upper or lower panel of the operating panel, the thermal expansion stress buffering base and the synthetic resin hollow body operating panel. The eighth aspect of the present invention adopts a wall-mounted lighting kanban device, such as the first aspect, the third aspect, or the fourth aspect, wherein the entire length of the synthetic resin hollow body operation panel is only a predetermined length longer than the fluorescent lamp holder. -With this structure, because the length of the synthetic resin hollow body operating panel is longer than the length of the lamp bracket or even the lamp installed on the calibration piece, there can be sufficient space between the two sides for position matching, and The kanban display is assembled without being dry. The ninth aspect of the present invention adopts a wall-mounted lighting kanban device. -14- (10) 1242175 The first aspect, the third aspect, or the fourth aspect, wherein the synthetic resin hollow body operation panel is a front display face and a rear kanban. The body mounting surface and the fluorescent light transmitting surface are formed, and at least a vent hole for preventing body expansion is provided on the rear kanban body mounting surface, and the vent hole is formed by joining a ventilation sheet. With this structure, since the synthetic resin hollow body operation panel is composed of simple members, the yield of each member can be provided, and the functions of dust resistance, insect resistance, and water resistance can be provided. The wall surface-mounted lighting kanban device used in the tenth aspect of the present invention is, as in the first, third, or fourth aspect, in order to prevent the turning action of the wall upper support rail that is rotatably engaged with the rail on the operation panel. The means for preventing detachment of the kanban display body for preventing the kanban display body from detaching is provided at the center of each synthetic resin hollow body operation panel. With this structure, the kanban display body cannot be easily separated from the upper wall support rail and the lower wall support rail, so that the theft display can be prevented. According to the first aspect of the present invention, the wall-mounted lighting kanban device used in the first aspect is the first, third, or fourth aspect, wherein the pin member inserted into the hole portion provided at a predetermined position on the lower track of the operation panel can be used for The hole portion rotates, and an engaging claw that engages with the aforementioned lower wall support rail at a predetermined position of the pin member through an elastic member is installed to be rotatable in a direction perpendicular to the length of the lower rail of the operation panel, and when not When the lower wall supporting rail is engaged, the engaging claw is rotated until the retraction position where the longitudinal direction of the engaging claw is parallel to the longitudinal direction of the lower rail of the operation panel is reached, and further below the lower rail of the operation panel A jaw is provided in the length direction of the part, and it is engaged at the lower end of the length of the support rail at the lower part of the aforementioned wall at -15- (11) 1242175 to prevent floating by the wind pressure below. With this structure, a pin member inserted into a hole portion provided at a predetermined position on the lower track of the operation panel can be rotated about the hole portion, and the pin member is engaged with the lower wall support rail by the elastic member on the pin member. The engaging claws at a predetermined position are arranged to be rotatable in a direction perpendicular to the length of the lower track of the operation panel, and when not engaged with the support rail at the lower part of the wall, the length direction of the engaging claws reaching the lower part of the operation disc is achieved. The engaging claws are rotated until the longitudinal direction of the rail becomes a parallel retraction position, and a jaw is provided in the longitudinal direction of the lower portion of the lower rail of the operation panel, and is engaged with the lower end of the length of the supporting rail below the wall. Except for the engagement of the lower wall support rail, the longitudinal direction of the engaging claws is retracted to a retracted position parallel to the longitudinal direction of the lower rail of the operation panel, which can prevent breakage due to contact of the engaging claws with other items during transportation, etc. Accidents, and can prevent flying accidents of the kanban display caused by wind pressure. The wall surface-mounted lighting kanban device used in the twelfth aspect of the present invention is, as in the first, third, or fourth aspects, wherein the kanban body mounting surface on the rear of the aforementioned synthetic resin hollow body operating panel is provided for the aforementioned operations. The mounting seat for the thermal expansion stress buffer stand for the upper track and the lower track of the operation tray is formed to accommodate an insertion seat that can be inserted from the bottom of the thermal expansion stress buffer stand to allow the upper and lower rails of the operation panel to be inserted into the thermal expansion stress buffer stand. The recessed surface is formed so that the recessed part is formed in the part corresponding to the lighting equipment containing a stabilizer. With this structure, the -16- 1242175 (12) rear kanban body mounting surface provided on the aforementioned synthetic resin hollow body operating panel is provided for mounting the thermal expansion stress buffer stand for the upper track of the operating panel and the lower track of the operating panel. The mounting seat is a recessed seat surface that can accommodate the bottom of the thermal expansion stress buffer stand to the insertion seat portion through which the upper and lower rails of the operation panel are inserted into the thermal expansion stress buffer stand. Moreover, it is suitable for lighting equipment that includes a stabilizer. The recessed portion is formed ', so the gap between the rear kanban mounting surface and the wall surface of the synthetic resin hollow body operation panel can be reduced to the desired gap as much as possible, and the problems caused by the excessive gap can be controlled, such as: structural The influence of the "stability" is kept to a minimum, and the appearance stability, stability, and aesthetics can be given. Therefore, the appearance is good. The wall-mounted lighting kanban device used in the thirteenth aspect of the present invention is the first aspect, the third aspect, or the fourth aspect, wherein the long supporting rail and the positioning device in which the lighting fixture is arranged at the correct position, It is equipped with: a suspension part that is engaged with the upper wall support rail, a support part that is engaged with the lower wall support rail, and a central fluorescent lamp holder support, and two sets of operation panels are used for each kanban display. After the positioning of the upper supporting track of the wall is fixed, the mounting of the lower supporting track can be accurately and automatically determined by suspending the positioning member on the upper supporting track of the wall and fixing it to the wall surface. The position and the installation position of the aforementioned lighting fixture. With this structure, first, the installation position of the upper wall support rail is correctly determined and fixed, and then the positioning fixture is suspended on the upper wall support rail to be fixed at On the wall surface, the installation position of the support rail at the lower part of the wall and the position of the aforementioned lighting fixture can be determined automatically and automatically. -17- (13) 1242175 The support rail, the illuminator " and ^ ° with feature set, individually determined without Zhunv its mounted position. Therefore, it is possible to save labor required for determining the installation position of the support rail at the lower part of the wall and the arrangement of the aforementioned lighting fixtures, and since the arrangement positions of the respective members are consistent, the kanban display body has an appearance. It also has certainty, stability and beauty, and can give the impression of excellent appearance. According to the fourteenth aspect of the present invention, the wall-mounted lighting kanban device is used as in the first, second, third, or fourth aspect, wherein the long eaves material is provided with an end surface for inserting to connect the eaves material. Inserted jaws for metal parts in between, and curved sections that receive light transmitted through fixing holes for fixing members that cover the end section and synthetic resin hollow body operating panels, and diffuse and reflect downward. . With this structure, since an insertion jaw for inserting a member for connecting between eaves materials is provided at an end surface portion thereof, the connection between the eaves materials can be simply and reliably performed, and further, since an acceptable distance is provided, The light transmitted through the synthetic resin hollow body operation panel diffuses and reflects downward, so that the light transmitted from the synthetic resin hollow body operation panel can be fully utilized at night. [Embodiment] A wall-mounted lighting signage device of the present invention will be described with reference to the drawings. Fig. 1 is a partial cross-sectional view of a wall-mounted lighting kanban device according to an embodiment of the present invention, and Fig. 2 is a rear perspective view of a kanban display body 20. In FIG. 1 and FIG. 2, 10 is a kanban display support means. -18- (14) 1242175 This kanban display support means 1 〇 is composed of: a wall upper support rail 11 horizontally installed on the upper part of the wall surface. The upper wall support rails 11 for the lower wall surface are installed in parallel to the lower wall support rails 1 2. The lighting fixtures 16 6. The positioning of the upper wall support rails 11 and the lower wall support rails 12 and the lighting fixtures are embedded. Positioning device for fluorescent tube support 1 1 3 1 1 3 3 Positioning device 1 3, long eaves material fitted to the upper wall support rail 丨 1 5. As shown in FIG. 2, 20 is a kanban display body. The kanban display body 20 is composed of a synthetic resin hollow body operation panel 23, an operation panel track 21 mounted on an upper portion of the synthetic resin hollow body operation panel 23, and The synthetic resin hollow body operating panel 23 has a lower operating panel track 22, and is fixed to the synthetic resin hollow operating panel 23 via a stress buffering elastic adhesive double-sided tape 37, and is inserted into the operating panel upper rail 21 and under the operating panel. The rail 22 is configured by a thermal expansion stress buffer stand 24 joined to the synthetic resin hollow body operation panel 23, the operation panel upper rail 21, and the operation panel lower rail 22. The synthetic resin hollow body operation panel 23 is composed of a front display surface 231 and a rear kanban body mounting surface 23 2 and a fluorescent light transmission surface 23 3 including a recessed portion, and is made of, for example, acrylic resin, polycarbonate resin, and the like. Composed of molded articles made of rigid hard synthetic resin. The synthetic resin hollow body operation panel 23 is obtained by bonding the front display surface portion 23 1 and the rear kanban body mounting surface 232 and the like. In the central portion of the rear kanban body mounting surface 232, a fluorescent light transmitting surface 233, which is a recessed portion for lamp accommodation, which is parallel to the longitudinal direction, is provided. 26. A vent port 234 is provided at a desired position on the rear board body mounting surface 23 2, and a vent sheet 235 is added to the vent port 234. (15) 1242175 Fig. 3 (a) is a front view showing the lower rail 22 of the operation panel, Fig. 3 (b) is a sectional view taken along the line AA of Fig. 3 (a), and Fig. 3 (c) is a view of Fig. 3 (A) B-B sectional view. The lower track 22 of the operation panel is for inserting the aforementioned thermal expansion stress buffering stand 24, and a notch portion 222 is provided at a central portion thereof. This notch portion 222 has a positioning function for moving the synthetic resin hollow body operation panel 23 to the position of the center portion of the lower rail 22 of the operation panel. However, a hole 221 is provided at a predetermined position of the lower panel 22 of the operation panel, and a pin member 27 that is rotatable with respect to the hole 22 1 is inserted. In addition, at a predetermined position of the pin member 27, an engagement claw 29 engaged with the lower wall support rail 12 via an elastic member 28 is provided to be rotatable and perpendicular to the longitudinal direction of the lower rail 22 of the operation panel. This engaging claw 29 can be moved to a retracted position parallel to the longitudinal direction of the lower track 22 of the operation panel except when engaging with the lower wall support rail 12 in the longitudinal direction. In addition, a jaw portion 22d (described later) is provided in a lengthwise direction below the operation panel lower rail 22, and is engaged with a lower end of the length of the lower wall support rail 12. With the above structure, the length of the engaging claw 29 is retracted to a retreat position parallel to the longitudinal direction of the lower rail 22 of the operation panel except when the supporting portion of the lower wall support rail 12 is engaged, so that it is possible to prevent the card from being jammed during transportation, etc. It is possible to prevent accidents such as breakage of the claws 29 from contact with other parts, and to prevent accidental scattering of the kanban display 20 due to wind pressure. Fig. 4 (a) is a front view of the rail 210 on the operation panel, and Fig. 4 (b) is a sectional view taken along the line A-A of Fig. 4 (a). The upper rail 21 of the operation panel is inserted into the aforementioned thermal expansion stress buffer stand 24, and a notch portion 2 1 2 is provided at a central portion thereof. This notch portion 2 1 2 has a function of positioning the synthetic resin hollow body operation panel 23 -20- (16) 1242175 at the center portion of the rail 21 on the operation panel. Fig. 5 (a) is a front view of the upper wall support rail 11; Fig. 5 (b) is a side view of the upper wall support rail 11; Fig. 5 (c) is a front view of the lower wall support rail 12; 5 (d) is a side view of the support rail 12 at the lower part of the wall. This upper wall supporting rail 11 is a supporting rail for suspending the kanban display body 20 on the upper wall and has a plurality of hole portions 11 1 for screwing to the wall surface at a desired position. As shown in Figure 5 (b), on the wall. An upper portion of the partial support rail 11 is formed with a support guide groove 1 1 e for supporting a lower end portion of an eaves material root 15 1 (described later) of the eaves material 15. Further, a suspension jaw portion 1 1 f of a suspension portion 1 3 1 (to be described later) that engages the above-mentioned positioner 13 is formed at a lower portion of the upper wall support rail 1 1. The lower wall support rail 12 is a support rail that engages the kanban display 20 at the lower wall, and is provided with a plurality of hole portions 121 for screwing to the wall surface at desired positions. In addition, as shown in FIG. 5 (d), an upper portion of the lower wall support rail 12 is formed with an engaging jaw portion 1 2 (described later) that engages with the engaging portion 1 3 (described later) of the positioner 13. d. Fig. 6 (a) is a front view of the eaves material root 151, Fig. 6 (b) is a side view of the eaves material root 151, and Fig. 6 (c) is a front view of the eaves material 152, Fig. 6 ( d) is a side view of the eaves eaves 1 5 2. The lower end portion of the eaves material root portion 151 is a support guide groove lie which is engaged with the upper end of the wall upper support rail 11. However, the eaves material eaves portion 15 2 shown in Figs. 6 (c) and (d) is the leading end of the curved surface portion 1 5 1a which is snapped to the root portion of the eaves material 5 1. This curved surface portion 15 & is a reflecting member for reflecting light from the kanban display body 20 below. FIG. 7 is an explanatory view showing the installation of the eaves material 15. As shown in Figure -21-(17) 1242175, the eaves material 15 is fixed to the wall surface with small screws, and the lower end of the eaves material root 1 5 1 is fitted to the upper wall support rail 11 The upper support guide groove 1le. Fig. 8 is an explanatory view showing the installation state of the corner eaves material 17 at the corner. This corner eaves material 17 connects the corners of the long eaves material to the corners, and the corner eaves material 17 is a support guide groove lie which is fitted in the corners to the wall upper support rail 11. Fig. 9 is an explanatory view showing the mounting state of the upper wall supporter 31 and the lower wall supporter 32 at the corners. As shown in the figure, the upper wall supporting member 31 is screwed to the end groove hole 1 1 1 of the upper wall supporting track 11 through the through hole 312, and the lower wall supporting member 3 2 is through the through hole 3 and 22 are screwed to the end groove 121 of the support rail 12 at the lower part of the wall. Fig. 10 is a side view of the corner kanban display 35 on the display corner. In the figure, 36 is a synthetic resin hollow body operation panel at the corner, 37 is an impact stress buffering elastic adhesive tape, 33 is an upper mounting part of the operation panel, and 34 is a lower mounting part of the operation panel. The upper part of the operation panel 3 3 is a bolt portion 311 of the upper wall support 31 (FIG. 9) is inserted through the hole portion 33 1 to be screwed, and the lower part of the operation panel attachment 34 is a bolt portion 341. The hole 321 of the lower wall support 32 (FIG. 9) is inserted and screwed. Fig. 11 is a perspective view showing the treatment of the end portion of the eaves material. In the figure, 15 is an eaves material, which is composed of an eaves material root 151 and an eaves material eaves portion 152, and an end section of the eaves material 15 is covered by an eaves end cover 18. Holes for bolts are provided in the corresponding portions of the eaves material root 1 1 5 and the eaves material 1 2 2. -22- (18) 1242175 Figure 12 is a perspective view showing the treatment of the ends of the upper wall support rail 11 and the lower wall support rail 12. At the end of the upper wall supporting rail 11, a screw-specific upper wall supporting member 31 is provided. 311 is a bolt portion provided at the upper portion of the upper wall supporting member 31. In addition, the end of the lower wall supporting rail 12 is screwed with a unique wall lower support 3 2. The 3 2 1 is a hole provided in the lower portion of the lower wall support 32. Fig. 13 is a side view showing the end-panel display body 38. In the figure, 3 9 is a synthetic resin hollow body operation panel at the end portion, 3 3 is an upper portion of the operation panel that is screwed through the bolt portion 3 1 1 of the upper wall support 3 3 (Fig. 9), 34 The lower part of the operation panel is a screw part 341 which is inserted into the hole part 3 2 1 of the lower wall support 32 (FIG. 9) and screwed. 37 is an elastic tape for impact stress buffering. However, the upper wall support 3 1, the lower wall support 3 2, the upper part of the operation panel 3 3, the lower part of the operation panel 3 4, for the synthetic resin hollow body operation panel at the corner and the synthetic resin hollow body operation panel at the end It is a common part. Fig. 14 is an explanatory view showing the mounting of the corner kanban display body 35 on the display corner portion. The kanban display body 3 5 of the operation panel upper mounting member 3 3 of the hole portion 3 3 1 is inserted and screwed by the bolt portion 3 1 1 of the upper wall supporting member 3 1, and the operation panel lower mounting member 34 The bolt portion 341 is screwed into the hole portion 321 of the lower wall support 32. Fig. 15 is an explanatory diagram showing the installation of an end kanban display with an end portion. The hole portion 3 3 1 of the operation panel upper mounting member 33 of the end kanban display 38 is screwed by the bolt portion 3 1 1 of the upper wall supporting member 3 1, and the operation panel lower mounting member 34 is The bolt portion 341 is inserted into the hole portion of the support member 3 2 1 under the wall -23- (19) 1242175 and is screwed. FIG. 16 is an explanatory diagram showing the arrangement of the positioning pieces 13. Positioning pieces 1 and 3 are provided with two pieces for each kanban display. 1 1 is the upper wall supporting track, the positioning member 13 is a suspension part 1 3 1 suspension is on the upper wall supporting track 1 1 ° 1 2 is the lower wall supporting track, the engaging part 1 3 is 2 The supporting rails 12 and 16 engaged with the lower wall are lighting fixtures, and the lighting fixture 16 is composed of a lamp 161, a lamp holder 162, and a stabilizer 163. The lighting fixture 16 is positioned between the upper wall support rails 11 and the lower wall support rails 12 by a fluorescent lamp holder support 1 3 3 installed at the center of the positioner 13. was decided. 17 (a) and 17 (b) are cross-sectional views showing the engagement of the rail 21 on the operation panel with the upper wall support rail 11; 18 (a) and 18 (b) are cross-sectional views showing the engagement of the operation panel lower rail 22 with the lower wall support rail 12 according to the first embodiment of the present invention. The upper wall support rail 11, the lower wall support rail 12, the operation panel upper rail 21, and the operation panel lower rail have end cross-sectional structures as shown in the drawings, for example, composed of a long aluminum pressing die. 1 1 d is a suspension jaw for the suspension part 13 of the suspension positioner 13, and 12 d is an engagement jaw for the engagement part 1 3 2 of the adjustment position 13. For the upper wall support rail 11 and the lower wall support rail I2, in order to combine the kanban display body 20, first, as shown in FIG. 17 (a), the engaging plate portion 2 1a of the upper rail 21 on the operation panel is inclined obliquely downward. In the posture, insert the lower part of the engaging recessed part 1 1 a of the upper support rail 11 of the wall. Then, it returns to the inclined position, that is, in the state shown in FIG. 17 (b), the engaging groove portion 21b of the rail 21 on the operation panel is engaged with the upper portion of the wall. -24- (20) 1242175 End 1 1 b, and the supporting end 1 1 b is rotated as a fulcrum, the leading end of the engaging plate portion 2 1 a is engaged with the engaging recessed portion 1 1 a, and the abutting surface 1 1 of the upper wall supporting rail 1 1 c is an abutment surface 2 1 c of the track 2 1 on the operation panel. As a result, the synthetic resin hollow body operation panel 23 is suspended on the upper part of the wall to support the rail 11 through the operation panel upper rail 21. . If the synthetic resin hollow body operation panel 23 is suspended on the upper part of the wall via the operation panel 2 1 to support the track 1 1, as shown in FIG. 18 (a), the first contact surface 22 a and the second contact of the operation panel lower rail 22 The contact surface 22c is respectively engaged with the first contact surface 12a and the second contact surface 12c of the φ lower wall support rail 12, the engaging claws 29 are engaged with the engaging protrusions 12b of the lower wall support rail 12, and the display panel 20 It is surely connected to the upper wall support rail 11 and the lower wall support rail 12. In this coupled state, the engaging projection 12b is an engaging recessed portion which is engaged with the engaging claw 29, and the lower end portion I2e of the engaging projection is in contact with the engaging jaw portion 22d. Therefore, the vertical movement and the horizontal movement of the operation panel lower rail 22 with respect to the lower wall support rail 12 shown in the figure are prevented, and they can be stably fixed. Φ Fig. 19 is an explanatory diagram for positioning the synthetic resin hollow body operation panel on the operation panel lower rail 22; In the figure, 222 is a notch provided at a desired position of the lower rail 22 of the operation panel, 24 is a thermal expansion stress buffering stand · '37 is an impact stress buffering elastic double-sided tape. The thermal expansion stress is relieved here. The punching base 24, the positioning pin member 243 is planted and fixed in the hole portion 241, and the positioning pin member 243 is engaged with the gap 222 with some play. . In addition, 242 is a hole portion through which a fixing member such as a rivet is inserted, and this hole portion 242 is used for joining the synthetic resin hollow body operation panel 23 and the thermal expansion stress buffer table -25- (21) 1242175 seat 24. The synthetic resin hollow body operation panel 23 is positioned by a positioning pin member 2 4 3 at the center portion of the hollow resin operation panel 23 with the thermal expansion stress cushioning base 24 and the operation panel lower rail 22 at some center. However, the positioning of the track 2 1 on the operation panel and the synthetic resin hollow body operation panel 23 is also determined by the relationship of a gap with some clearance from the positioning pin member. Fig. 20 is a sectional view showing the assembled state of the eaves material 15. As shown in the figure, the eaves material 15 is composed of an eaves material root portion 151 and an eaves material eaves portion 152, and the eaves material 1 5 3 is inserted into the jaw by inserting the eaves material 5 5 1 5 4 And the eaves are joined and assembled. Fig. 21 (a) is a partial side view of the kanban display body showing the kanban display body separation preventing means 51; Figure 21 (b) is a perspective view showing the installation state. As shown in FIG. 21 (a) and FIG. 21 (b), the kanban display body separation preventing means 51 is screwed to a predetermined position of the eaves root 151 to engage with the track 21 on the operation panel, thereby obstructing the track on the operation panel. 21 turns. Lu Next, the method for mounting the wall-mounted lighting kanban device according to the present invention will be described in detail. Fig. 22 is a flowchart showing a method of assembling a wall-mounted lighting kanban device according to an embodiment of the present invention. In stage S1, a horizontal correction is performed for the mounting wall upper support rail 11 on the wall surface. Prior to this horizontal calibration, a basic dimension check and a vertical check are performed. In stage S2, starting from the corner, the upper support rail 11 of the wall is fixed along the horizontal reference ink line by small screws suitable for the wall structure. At the fitting portion of the support rail 11 at the upper part of the wall, sufficient care must be taken to ensure that there are no steps or gaps. When this -26- (22) 1242175, be careful whether the vertical direction of the upper support rail 11 is correct. In stage s3, the positioner 13 is suspended at a predetermined position on the upper part of the wall by the suspension portion 1 31 to be fixed at a predetermined pitch by the attached small screws. In stage S4, the lower wall support rail 12 is engaged with the engaging portion 丨 3 2 of the positioner 13 and the distance between the upper wall support rail 11 and the lower wall support rail 12 is measured by a distance measuring device. After confirming that the predetermined distance is secured, the lower wall support rails 12 are fixed with small screws suitable for the wall structure. At this time, it is necessary to start from the corner in order to correctly position. And, care must be taken to ensure that the vertical direction of the support rails 12 under the wall is correct. In step S5, the corner eaves material 17 is inserted into the engaging portion at the upper end of the upper support rail 11 of the wall, and is fixed by a small screw suitable for the wall structure. Next, the eaves material roots 1 5 in the straight portion are connected to the corner eaves materials 17 and fixed with appropriate small screws. The eaves are connected to each other by aluminum tape. Next, the eaves eaves portion 152 is attached to the eaves material root 1 1 and the insertion portion of the eaves eaves joining member 1 5 3 is fixed by a small screw. Next, the eaves end cover 18 is fixed to the end section of the eaves material 15 by the attached small screws, and the eaves material 15 is completed. In stage 56, the lighting fixture 16 is mounted on the positioner 13. First, the lamp bracket 162 and the stabilizer 163 are installed at the same bracket mounting position of the calibration piece 13, and then the lamp 161 is assembled. Perform a leakage check at this time. At stage S7, the corner kanban display body 35 is mounted. First, the upper wall support member 31 is screwed onto the end of the upper wall support rail 11. The lower wall support 32 is screwed to the end of the lower wall support rail 12. Next, install the upper part of the synthetic resin hollow body operation panel 3 6 at the corner. -27 · 1242175 (23) pieces 3 3 After inserting the bolts of the upper wall support 3 31, insert the bolts of the lower part of the operation panel 3 4 It is inserted into the hole of the lower support 32 of the wall, and both sides are screwed together. In step S8, the kanban display body 20 having a long straight portion is mounted. In order to have a function of a snap-in means with the lower wall support rail 12 provided at a predetermined position of the lower track 22 of the operation panel, the retraction position is parallel to the longitudinal direction of the lower track of the operation panel of the synthetic resin hollow body operation panel 23 The pin member 27 is rotated to a position perpendicular to the longitudinal direction of the operation panel lower rail 22. However, the engaging claws 29 are retracted from the longitudinal direction of the engaging claws 29 to the retracted position parallel to the longitudinal direction of the lower rail 22 of the operation panel to prevent the card from being jammed during transportation, except when engaging the support rail 12 at the lower wall. Accidents such as the claw 29 coming into contact with other items and being damaged. The kanban display body 20 is tilted at a predetermined position on the upper wall support rail 11. The upper wall support rail 11 and the operation panel upper rail 21 are engaged with each other in the longitudinal direction, and the kanban display body 20 is tilted using an assembly rod (assembly tool). Under the state, confirm whether the engagement state of the upper wall support rail 11 and the operation panel upper rail 21 is correctly stored from below. After confirmation, remove the assembly rod from the lower part of the synthetic resin hollow body operation panel 23. The kanban display body 20 is rotated and closed. Only held in the closed state, the long ridges of the upper wall support rail 11 and the operation panel's long ridges 21 are engaged with each other, and the kanban display body 20 cannot be removed from the upper wall support rails 11 status. However, when the kanban display body 20 is assembled, the upper track 21 and the lower track 22 of the operated panel fixed to the kanban display body 20 are parallel to the upper wall of the kanban display support means 10-28- (24 ) 1242175 The support rail 11 and the lower wall support rail 12 are slidable. Therefore, with the corners as the base point, the upper track 21 and the lower track 22 of the operation panel are tightened together toward the corner side and arranged in order. . The full length of the upper track 21 and the lower track 22 of the operation panel fixed to the kanban display 20 is longer than that of the synthetic resin hollow operation panel 23, and because of the synthetic resin hollow operation panel of the kanban display 20 23 are not in contact with each other, so deformation of the synthetic resin hollow body operation panel 23 does not occur, and a better appearance can be completed. At stage S9, the end kanban display body 38 is mounted. First, the upper wall supporting member 31 is screwed onto the end of the upper wall supporting rail 11. The lower wall support 32 is screwed to the end of the lower wall support rail 12. Next, after inserting the upper mounting member 3 3 of the end synthetic resin hollow body operating panel 3 9, the bolt portion 3 1 1 of the upper wall supporting member 3 1 is inserted, and the bolt portion of the lower operating plate mounting member 34 is inserted into The holes 3 2 1 of the lower wall support 32 are screwed together. At stage S 10, the installation of the last kanban display 20 with a long straight portion and the opening and closing inspection of the full kanban display 20 are performed. The final kanban display 20 is installed in accordance with stage S8. However, when the kanban display body 20 is closed, the assembly rod is not taken out, but another positioning member 1 3 is hung so that it can be used for maintenance. The opening / closing operation inspection of the full-board display 20 is performed. The pin member 27, which is a latching means, which is a supporting means for the lower wall supporting rail 12, which is provided at a predetermined position of the operating panel lower rail 22 of the synthetic resin hollow body operating panel 23, is pushed downward from above to release the effect of the latching means. , Open the synthetic resin hollow body operation panel 23 forward, and check if the synthetic resin hollow body operation panel 23 can be closed gently and investigate without pressing the pin member 27 from bottom to top -29- (25) 1242175 The function of the card connection means. At stage S 1 1, the installation of the kanban display body separation prevention means is performed. The detachment of the kanban display body is prevented by means of preventing the kanban display body from detaching from the turning operation of the operation panel upper rail 2 1 that can be turned on the support rail 11 that is capable of being turned on the upper wall of the wall. The center position of the operating panel is set at a predetermined position below the eaves material root 1 5 1 so that the kanban display body detachment prevention means 5 1 is fixed to the eaves material root · 15 (effect of the invention) As explained above, the basis The wall surface-mounted lighting kanban device used in the first aspect of the present invention is provided with positioning elements for arranging the upper wall support rail, the lower wall support rail, and lighting fixtures at the correct positions, and each of the kanban display bodies is formed into a unit structure. , And can be detachably snapped and fixed to the upper wall support track and the lower wall support track, so it is lightweight, and requires less time and labor to install or remove, and there is no need to worry about the contamination inside the kanban surface, etc., and Maintenance work such as sweeping is very simple and easy. At the same time, it is simple and economical to change the appearance or damage. According to the second aspect of the present invention, the wall-mounted lighting kanban device used in the second aspect, as in the first aspect, includes: fixing the support members at the end sections of the end portions of the upper wall support rail and the lower wall support rail; and The corner part enables the corner eaves material to be fitted and fixed on the upper wall supporting rail and the cover material covering the end section of the eaves material is fixed to the kanban on the end section of the eaves material. -30- (26) 1242175 body support means; Two sets of corner kanban display bodies which are fixed to the corner synthetic resin hollow body operation panel via an impact stress buffering elastic member and can be slid to abut the support member and can be fixed by screwing mounting members. Formed corners; two sets of ends fixed on the synthetic resin hollow body operating panel via impact stress buffering elastic members that can be slid to abut the support and can be fixed by screws The end portion formed by the kanban display body; therefore, even if the corner portion of the wall surface has a predetermined angle and the end portion of the wall surface, the eaves material on each wall surface and the kanban display body can be structured. And become smooth appearance. According to the third aspect of the present invention, the wall-mounted lighting kanban device is used as in the first aspect, because each unit of the kanban display body can support the parallel upper wall support track and lower wall support track of the kanban display body support means. Loading and unloading requires less time and labor for installation or removal. At the same time, maintenance work such as cleaning is very simple and easy. It can also respond to changes in appearance and damage simply and economically. According to the fourth aspect of the present invention, the wall-mounted lighting kanban device is adopted. As in the first aspect, the corner portion can be used as a base point, so that the upper track of the operation panel and the lower track of the operation panel can be tightened together toward the corner side and sequentially Because of the arrangement, the fine adjustment in the horizontal direction can be performed simply, and the kanban display can be arranged evenly. According to the fifth aspect of the present invention, the wall-mounted lighting kanban device is used, as in the first, third, or fourth aspects, because the synthetic resin hollow body operation panels of the kanban display body do not contact each other, the synthetic resin hollow body Deformation of the operation panel does not occur, and it is possible to form a Kanban display which is also excellent in appearance -31-(27) 1242175. According to the sixth aspect of the present invention, the wall-mounted lighting kanban device 'as in the first, third, or fourth aspects is because a gap is provided at a predetermined position in the longitudinal direction of the track on the operation panel and the track under the operation panel, and the thermal expansion The stress / buffer pedestal is provided with engaging members that engage with this notch, so the upper track of the operation panel and the lower track of the operation panel are positioned at the left and right center positions of each kanban display unit. According to the seventh aspect of the present invention, the wall-mounted lighting kanban device φ, as in the first, third, or fourth aspect, can be accurately and surely fixed. The thermal expansion stress buffer base and the upper or lower operating track track 3. Thermal expansion stress buffer base and synthetic resin hollow body operation panel. According to the eighth aspect of the present invention, the wall-mounted lighting kanban device is used as in the first, third, or fourth aspect, because the length of the synthetic resin hollow body operation panel is longer than the length of the lamp holder or the lamp installed on the alignment part. It is longer, so there can be enough space between the two parties for position matching, and the kanban display body can be assembled without being dry. · According to the ninth aspect of the present invention, the wall-mounted lighting kanban device is used, as in the first, third, or fourth aspects. Because the synthetic resin hollow body operation panel is composed of simple components, it can provide various components. Yield, 'Also, it has the functions of dustproof, insect-proof and waterproof. According to the first aspect of the invention, the wall-mounted lighting kanban device used in the tenth aspect, such as the first, third, or fourth aspects, because the kanban display cannot be easily separated from the upper support rail and the lower support rail of the wall, so there is The effect of preventing signboard body theft. -32- (28) 1242175 According to the first aspect of the present invention, the wall-mounted lighting kanban device is used, as in the first, third, or fourth aspects, because the insertion is provided at a predetermined position on the track under the operation panel. The pin member of the hole portion can rotate with respect to the hole portion, and an engaging claw that is engaged with the aforementioned lower wall support rail at a predetermined position of the pin member by an elastic member is installed to be perpendicular to the length of the lower track of the operation panel. When the direction of rotation is not engaged with the support rail at the lower wall, the engaging claw is rotated until the retraction position where the longitudinal direction of the engaging claw is parallel to the longitudinal direction of the lower rail of the operation panel is reached, and A jaw is provided in the length direction of the lower part of the lower track of the operation panel, and is engaged with the lower end of the length of the lower wall support rail. Therefore, the length of the engaging claw is retracted to become The retracted position parallel to the longitudinal direction of the lower track of the operation panel can prevent accidents such as breakage of the engaging claws from contact with other items during transportation and the like, and can prevent accidents caused by wind pressure. Scatter accident caused by kanban display. According to the 12th aspect of the present invention, the wall-mounted lighting kanban device is used as in the first, 3, or 4 aspects, because it is provided on the rear kanban body mounting surface of the synthetic resin hollow body operation panel and is used for installing the aforementioned operations. The mounting seat for the thermal expansion stress buffer stand for the upper track and the lower track of the operation tray is formed to accommodate an insertion seat that can be inserted from the bottom of the thermal expansion stress buffer stand to allow the upper and lower rails of the operation panel to be inserted into the thermal expansion stress buffer stand. And the recessed part is formed in the part corresponding to the lighting equipment containing the stabilizer, so the gap between the rear kanban mounting surface and the wall surface of the synthetic resin hollow body operation panel can be reduced to the desired gap as much as possible. , And can control the problems caused by the large gap, such as: structural instability of -33- (29) 1242175, the influence of wind, etc. to a minimum, and can give appearance reliability, stability and aesthetics Therefore, the appearance is good. According to the 13th aspect of the present invention, the wall-mounted lighting kanban device is used as in the first, 3, or 4 aspects, because firstly, the installation position of the support track on the upper part of the wall is correctly determined and fixed. By suspending the positioning piece on the upper wall support rail and fixing it on the wall surface, the installation position of the lower wall support rail and the arrangement position of the aforementioned lighting fixture can be determined accurately and automatically. Location, there is no need to individually determine its installation location. Therefore, it is possible to save labor required for determining the installation position of the support rail under the wall and the arrangement position of the lighting fixture, and because the arrangement positions of the respective members are consistent, the kanban display body also has an appearance. It is reliable, stable and beautiful, and can give the impression of excellent appearance. According to the fourteenth aspect of the present invention, the wall-mounted lighting kanban device is used, as in the first, second, third, or fourth aspect, because the end surface is provided with a member for inserting a member for connecting between eaves materials. The jaw is inserted, so the connection between the eaves can be made simply and surely. Furthermore, since there is a curved surface portion that can receive light transmitted from the synthetic resin hollow body operation panel and diffuse and reflect downward, it is possible at night. The effect of light transmitted from a synthetic resin hollow body operation panel is fully utilized. [Brief Description of the Drawings] [Fig. 1] A partial cross-sectional view of a wall-mounted lighting kanban device according to an embodiment of the present invention. -34- (30) 1242175 [Fig. 2] A perspective view of a kanban display. [Figure 3] (a) is a front view of the track under the operation panel, (b) is a sectional view taken along the line A-A of (a), and (c) is a sectional view taken along the line B-B of (a). [Fig. 4] (a) is a front view of the track on the operation panel, and (b) is a sectional view taken along the line A-A of (a). [FIG. 5] (a) is a front view of the upper wall support track, (b) is a side view of the upper wall support track, (c) is a front view of the lower wall support track, and (d) is a view of the lower wall support track. side view. [Fig. 6] (a) is a front view of the eaves material root, (b) is a side view of the eaves material root, (c) is a front view of the eaves material eaves, and (d) is a side view of the eaves material eaves . [Fig. 7] An explanatory view showing the installation of a corner eaves material. [Fig. 8] A cross-sectional view showing the fitted state of the eaves material and the upper wall support rail. [Fig. 9] An explanatory view showing the mounting state of the upper wall support and the lower wall support. [Fig. 10] A side view showing a corner kanban display. [FIG. 11] A perspective view showing a treatment of an end portion of an eaves material. [Fig. 12] A perspective view showing the processing on the ends of the upper wall support rail and the lower wall support rail. [Fig. 1 3] A side view of the end-panel display. [Fig. I4] An explanatory view showing the installation of a corner kanban display on the corner. [Fig. 15] An illustration showing the installation of the end kanban display on the end -35- (31) 1242175 [Fig. 16] An explanatory diagram showing the arrangement of the alignment pieces. [Fig. 17] (a) and (b) are sectional views showing the engagement of the rail on the operation panel with the support rail on the upper wall. ^ [Fig. 18] (a) and (b) show that the lower track of the operation panel supports the lower part of the wall. Sectional view of the engagement of the bearing rail. [Fig. 19] An explanatory diagram of the lower track of the operation panel. [Fig. 20] A sectional view for showing the assembled state of the eaves material. Lu [Fig. 21] (a) is a partial side view of the kanban display body showing the kanban display body separation preventing means, and (b) is a perspective view showing the installation state of the kanban display body separation prevention means. [Fig. 22] A flowchart showing a method of installing a wall-mounted lighting kanban device. [Fig. 23] A perspective view showing a conventional wall-mounted lighting kanban device. [Description of drawing number] 10 Supporting means for kanban display body 1 1 Supporting track on upper wall * 1 1 a Fitting recessed part, lib support end 11c abutment surface lid suspension jaw part lie support guide groove -36- (32) 1242175 111 End groove 12 Supporting track 12a on the lower wall 12a Positive abutment surface 12b Engagement protrusion 12c 2nd abutment surface 1 2d Engagement jaw 12e Engagement protrusion lower end 122 End groove _ 13 13 1 Suspension section 13 2 Engaging section 1 3 3 Fluorescent lamp bracket support 15 Eaves material 151 Eaves material root 15 1a Curved portion 152 Eaves material eaves® 153 Eaves material eaves joint member 15 4 Insert jaw 1 6 Lighting Appliances '1 6 1 Lamp' 162 Light bracket 163 Ballast 17 Corner eaves material 18 Eave end cover -37- (33) 1242175 20 Kanban display 2 1 Track on the operation panel 2 1a Engage plate part 2 1b Engage groove part 2 1c Contact surface 212 notch
22 操作盤下軌道 22a 第1抵接面 22c 第2抵接面 2 2 d 卡合顎部 221 孔部 222 缺口部 23 合成樹脂中空體操作盤 231 前方顯示面部22 Lower panel track 22a First abutment surface 22c Second abutment surface 2 2 d Engage jaw 221 Hole 222 Notch 23 Synthetic resin hollow body operation panel 231 Front display face
23 2 後方看板體安裝面 2 3 3 螢光透過面 23 4 通氣口 2 3 5 通氣薄片 2 4 熱膨脹應力緩衝台座 241 孔部 242 孔部 243 定位銷構件 27 銷構件 28 彈性構件 -38- (34) 1242175 29 卡合爪 3 1 壁上部支撐件 311 螺栓部 3 12 貫通孔 32 壁下部支撐件 321 孔部 3 22 貫通孔 3 3操作盤上部安裝件 φ 33 1 孔部 3 4 操作盤下部安裝件 34 1 螺栓部 35 角落部看板顯示體 36 角落部合成樹脂中空體操作盤 37 衝擊應力緩衝彈性粘接帶 3 8 端部看板顯示體 3 9 端部合成樹脂中空體操作盤 ® 5 1 看板顯示體脫離防止手段 -39-23 2 Rear kanban body mounting surface 2 3 3 Fluorescent transmission surface 23 4 Air vent 2 3 5 Ventilation sheet 2 4 Thermal expansion stress buffer base 241 Hole portion 242 Hole portion 243 Pin member 27 Pin member 28 Elastic member -38- (34 ) 1242175 29 Engagement claws 3 1 Upper wall support 311 Bolt part 3 12 Through hole 32 Lower wall support 321 Hole 3 22 Through hole 3 3 Upper panel mounting part φ 33 1 Hole part 3 4 Lower panel mounting part 34 1 Bolt section 35 Corner display board 36 Corner synthetic resin hollow body operation panel 37 Impact stress cushioning elastic adhesive tape 3 8 End kanban display body 3 9 End synthetic resin hollow body operation panel 5 1 Kanban display body Means of preventing separation