.M343334 八、新型說明: 【新型所屬之技術領域】 一種插座過熱過載安全裝置,本創作特徵包含過載熱動金屬片開 關取電過載自動]^脫取斷電源;插座導電片接觸不良或超載取電產生 高熱,在插座導電片適當位置裝置絕緣導熱體或幅射熱傳熱至負載元 件或溫度開關或溫度感測元件到達設定溫度以取斷電源;繼電器串接 於過載熱動金屬片開關的前方輸入端或繼電器串接於過載熱動金屬片 .開關輸出插座使用’繼電器電磁器電源由過载熱動金屬片開關或溫度 感測元件插座導電片接觸不良或超載取電產生高熱啟斷繼電器電磁器 參 電源,本創作保障使用者取電在插座導電片接觸不良產生高熱或導線 短路或過載熱動金屬片開關自動跳脫取斷電源,繼電器能在毫秒取斷 電源。 【先前技術】 按吾人使用電力,行之有年,由於其具有供應上之方便性,故舉凡 電氣產品皆使用電力以為作動,時至今日,電力之普及亦己成為衡量 • 一經濟社會發展之重要指標之一。 • 而取電或供電使用方便’同時也帶來危險性存在,產品在供電中必 • 要裝置的是插座之保護及供電導線之安全保障而設置保險絲的存 在,令其在發生供電導線短路或不正常過載,保險綠立即自動啟斷, 以防止造成意外,如電線走火、產品燒毀事故。 而供電保險絲使用至今己行之有年’各式電源或插座上裝置有超載 及導線短路啟斷電源在其應用上各有選擇,有溶斷型保險絲、無溶絲 開關各有優缺點存在,例如熔斷型要更換、無熔絲開關雖不用更換, 但其一般啟斷時間太慢,所以現在的取電供電均要求快速啟斷時間及 5 M343334 方便性、價格上為以安全保障為重點,本創作人把啟斷毫秒之繼電器 與金屬熱動片開關及插座導電片適當位置裝置負載元件或溫度開關 或溫度感測元件選擇配合應用,短路由繼電器啟斷電源,超負載由依 据裝置之元件特性啟斷電源,插座接觸不良產生高熱由負載元件或溫 度開關或溫度感測元件如此插座整體元件匹配,能達到毫秒及超負載 啟斷電源,以防止造成意外,如電線走火、產品燒毁事故。 【新型内容】 ® 一種插座過熱過載安全裝置,本創作包含過載熱動金屬片開關取電過 載自動跳脫取斷電源;插座導電片接觸不良或超載取電產生高熱,在 插座導電片適當位置裝置絕緣導熱體或幅射熱傳熱至負載元件或溫度 開關或溫度感測元件到達設定溫度以取斷電源;繼電器串接於過載熱 動金屬片開關的前方輸入端或繼電器串接於過載熱動金屬片開關的輸 出端為插座使用導線短路繼電器能在毫秒取斷電源,本創作保障使用 者取電在插座導電片接觸不良或超載取電產生高熱或過載熱動金屬片 開關取電過載自動跳脫取斷電源或插座使用導線短路繼電器能在毫秒 φ 取斷電,如此插座整體元件匹配,能達到毫秒及超負載啟斷電源,以 防止造成意外,如電線走火、產品燒毁事故。 【實施方式】 一種插座過熱過載安全裝置,本創作包含過載熱動金屬片開關取 電過載自動跳脫取斷電源;插座導電片接觸不良或超載取電產生高 熱,在插座導電片適當位置利用絕緣導熱體傳熱或幅射熱裝置負载元 件或溫度開關或溫度感測元件以取斷電源;繼電器串接於過載熱動金 M343334 屬片開關的前方輸入端或繼電器串接於過載熱動金屬片開關的輸出端 當插座使用導線短路或與插座導電片接觸不良產生高熱導熱體傳熱或 幅射熱到達設定溫度,載元件或溫度開關或溫度感測元件啟斷繼電器 電磁器電源,繼電器能在毫秒取斷電源,繼電器與金屬熱動片開關及 插座導電片適當位置裝置負載元件或溫度開關或溫度感測元件選擇配 合插座整體元件匹配應用,本創作其中包含熱動開關結構體1〇1外殼 102插座103電源輸出導電片104電源指示燈或警示聲1〇5啟斷熱動 金屬片接點柱體106熱動金屬片107開滑動關108熱動金屬片接點回 - 覆柱體109開關固定座no開關外框in熱動金屬片導電接點112電 參 源輸入導電片接點113電源輸入固定螺絲114電源插頭115電源輸入 端子116結構體固定螺絲117開關定位凸點jig開關定值板HQ中心 轴120彈片及固定座121插座孔122插座導電彈片123插座導電片固 定螺絲124溫度開關或熱敏電阻或溫度保險絲或覆歸保險絲或溫度感 測元件或熱動金屬片開關125絕緣導熱體或絕緣導熱矽膠或絕緣導熱 材質126插座導電片127電磁器線圈128繼電器129繼電器電源輸入 接點130繼電器電源輸出接點131電磁器線圈132插座底座133啟斷 定位點134導通定位點135啟斷按鍵136啟動按鍵137轉接觸點138 麵插片139插頭插片140,所組成能達到毫秒及超負载啟斷電源, 以防止造成意外,如電線走火、產品燒毀事故。 • 圖為糗插座過熱過載安全裝置,過載熱動金屬片開關導通與 啟斷結構示意圖。 m 本創作設有熱動開關結構體101,熱動開關結構體101固定於外殼 102底部由結構體固定螺絲m鎖緊固定,電源輸入端子116與熱動 金片107熱動金屬>1導電接點112由電源輸入固定螺絲鎖緊固 =於…、動關結構體101,電源輸入導電片接點固定於電源輸出 與熱動金屬片而熱動金屬片導電接點112接觸,熱動金 …動金屬#導電接點112上端外殼102設有開關外框1U令 7 •M343334 滑動酬1G8直線滑行,滑細關8固定於外殼1G2與開關固定座 110中間’月動’滑動開關108下方設有啟斷熱動片接點柱體106往右 推到熱動金屬“7定位點啟斷電源,滑動_ 108丨-端設有熱動 片回覆柱體109滑動開關1〇8往左推熱動金屬# 1〇7熱動金屬片導電 接點112與電源輪入導電片接點113接觸電源輸出導電片1〇4,該過 載金屬片107為過載彈開接點不自動回覆必須手動滑動開關刚回覆 或自動回覆及可裝置溫度到達啟斷電源警示燈或警告聲1()5,滑動開 關108左推回覆熱動金屬#1〇7熱動金屬片導電接點ιΐ2後回覆參考 第-圖上啟斷熱動片接點柱艘1〇6與熱動片回覆柱想!⑽空隙熱動片 Φ彈開距離’备取電使用電源插頭115插上,-極直接輸入插座1〇3另 -極接於電源輸人導電片116經熱動金翻1G7熱動金屬片導電接點 112與電源輸入導電片接,點113接觸,電源輪出導電片1〇4導電輸出 接至插座。 圖二為-種插座過熱過載安全裝置,過載熱動金屬㈣關導通與 啟斷俯視結構示意圖。 本圖式為俯視結構示意圖,與圖一相似不另敘述。 圖三為-種插座過熱過·全裝置,過餘動金屬片關設有定 位導通俯視結構示意圖。 暑 本創作滑動開關108設有開關定位凸點118,伸入開關定位板119, 而開關定位板119設有導通定位點135啟斷定位點134開關定位板j 19 中心轴120為旋轉中心,開關定位板jig外設有彈片及固定座121 , 當取電源使用滑動開關108往左推熱動金屬片接點回覆柱體1〇9推動 過載熱動金屬片1G7熱動金屬片導電接點112與電源輸入導電片接點 113接觸導通後開關定位板119由彈片及固定座121回覆到導通定位 點135置,熱動金屬片接點回覆柱體1〇9留有空隙當過載执動金屬片 1〇7彈_間,如要_源_ 體106推開過載熱動金屬片107熱動金屬片導電接點112與電源輸入導 M343334 電片接點113 ’開關定位板119在啟斷定位點134置啟斷電源。 圖四為一種插座過熱過載安全裝置,過載熱動金屬片開關設有定 位啟斷俯視結構示意圖。 本創作滑動開關108設有開關定位凸點118,伸入開關定位板 119 ’而開關定位板119設有導通定位點135啟斷定位點134開關定位 板119中心軸120為旋轉中心,開關定位板119外設有彈片及固定座 121,當要啟斷電源滑動開關108往右推熱動金屬片接點柱體1〇6推開 過載熱動金屬片107接點112與電源輸入導電片接點113,開關定位板 119在啟斷定位點134置啟斷電源。 • 圖五為一種插座過熱過載安全裝置,過载熱動開關及插座插片設 有絕緣導熱體導熱至溫度開關或感測溫度元件結構示意圖。 本創作過載熱動開關及插座103插座導電彈片123設有絕緣導熱 體126傳熱或幅射熱至溫度開關或感測溫度元件組合應用,當插座取 電使用過載由過載熱動金屬片107開關彈開啟斷電源,以上熱動金屬 片107開關部份請參考第三、四圖已說明,本案插座1〇3兩邊設有插 座導電彈片123與127對應,由插座導電片固定螺絲124固定於插座底 座133,插座導電彈片123中間為延長線插頭插孔122,插座導電彈片 123與127週圍適當位置以接觸或非接觸傳熱或幅射熱裝置固定之溫度 * 開關或熱敏電阻或溫度保險絲或覆歸保險絲或溫度感測元件或熱動金 屬片開關125當設定溫度到達啟斷電源,防止插座導電彈片123與127 接觸不良產生高熱插座103燒毁,為更快速精密在插座1〇3插座導電 彈片123與127週圍適當位置以接觸或非接觸傳熱或幅射熱裝置絕緣 導熱體或絕緣導熱矽膠或絕緣導熱材質126導熱或幅射熱至二極插座 導電彈片123與127中間或任何一位置,在適當導熱位置裝置固定之 溫度開關或熱敏電阻或溫度保險絲或覆歸保險絲或溫度感測元件或熱 動金屬片開關125當設定溫度到達啟斷電源及可選擇裝置啟斷電源警 示燈或警告聲105,防止插座導電彈片123與127接觸不良產生高熱插 9 M343334 座103燒毀,如此之設計裝置可保障超負載及插座iQ3插座導電彈片 123與127接觸不良產生高熱所引發之電線著火事故的發生。 圖六為一種插座過熱過載安全裝置,繼電器及過載熱動開關及插 座插片設有絕緣導熱體導熱至溫度開關或感測溫度元件結構示意圖。 本創作為一完全保障之插座結構體,繼電器129及過載熱動開關 107及插座103插座導電彈片123設有絕緣導熱體126導熱至溫度開關 或溫度感測器元件125三組保障此插座結構,過載熱動金屬片1〇7部 份請參考圖三,插座103插座導電彈片123設有絕緣導熱體126導熱至 溫度開關或感測溫度元件125請參考圖五,本圖只敘述繼電器與過載 φ 熱動金屬片107與溫度開關或溫度感測元件125三組結合應用,當取 電使用滑動開關108往左推熱動金屬片1〇7熱動金屬片導電接點112 與電源輸入導電片接點113接觸電源輸出導電片1〇4連接至插座1〇3 插座導電彈片123,插座103另一極電源由插頭115直接輸入插座1〇3 插座導電彈片127,插座導電彈片127串接於溫度開關或溫度保險絲或 溫度感測器元件125接至繼電器129電磁器線圈128位置,另一極電源 由插頭115直接輸入繼電器129之電源輸入接點130,繼電器129另一 極電磁器線圈接點132由熱動金屬片1〇7熱動金屬片導電接點Π2與 源輸入導電片接點113接至啟斷按鍵136,經維持接觸點138接入電磁 籲 器線圈接點132,當取電使用按下繼電器129啟動按鍵137電磁器磁 吸,電源輸入接點130導通繼電器輸出接點丨31,電源輸入過載熱動金 屬片107熱動金屬片導電接點112與電源輸入導電片接點113接觸電 源輸出導電片104連接至插座103插座導電彈片123供電使用,當插 座導電彈片123或127接觸不良產生高熱達到溫度開關或溫度感測器 元件設疋點啟斷繼電器129電磁器線圈128電源,電磁器磁吸脫離同 時啟斷繼電器輸出接點131電源,當取電過載由過載熱動金屬片犯7 跳脫電源,啟斷繼電器129電磁器線圈132電源同時啟斷繼電器輸出 接點131電源,當插座導電彈片123與插座導電彈片127短路產生電壓 M343334 降由繼電器129電磁器電壓不足毫秒啟斷插座導電彈片123與插座導 電彈片127電源,此組合應用可保障插座取電使用安全。 圖七及圖七A及圖七B及圖七C為一種插座過熱過載安全裝置, 過載熱動金屬片開關裝置於插座導電片適當位置以傳熱或幅射熱當取 電接觸不良產生高熱過載熱動金屬片開關跳脫啟斷電源。 本創作為過載熱動金屬片開關125裝置在插座導電彈片123與127 週圍適當位置以傳熱或幅射熱至過載熱動金屬片開關丨25,而熱動金屬 片開關125串接可應用溫度開關或熱敏電阻或溫度保險絲或覆歸保險 絲或溫度感測元件或熱動金屬片開關,電源插頭115 —極接至繼電器 φ 129電源輸入點130另一極電源接至插座導電片127,繼電器129電磁 器線圈132 —極由電源輸入,另一極經過載熱動金屬片開關125串接 至插座導電彈片123串接至繼電器129電磁器線圈128,當取電使用按 下啟動按鍵137繼電器129電磁器磁吸導通繼電器電源輸出131至過載 熱動金屬片開關125串接至插座導電彈片123,當插座導電彈片123或 127接觸不良產生高熱傳熱或幅射熱至過載熱動金屬片開關125,過載 熱動金屬片開關海^脫啟斷電源,同時繼電器129電磁器線圈128電源 啟斷繼電器129磁吸跳脱啟斷電源,啟斷電源繼電器丨29按下啟斷按 鍵136啟斷電磁器線圈128電源繼電器129磁吸跳脫啟斷電源,如此過 • 載熱動金屬片125開關可做為插座導電片接觸不良產生高熱啟斷電源 及取電過載取斷電源,另繼電器129可選擇裝置或如圖七-A用開關做 為電源開關,電源一極輸入溫度開關或熱敏電阻或溫度保險絲或覆歸 保險絲或溫度感測元件或熱動金屬片開關串接至插座導電彈片123,另 一極電源直接輸入插座導電片127,並可選擇裝置過載過熱啟斷電源指 示燈105或警示聲,另電源開關可不裝置如第七圖_b至少一極電源串 接溫度開關或熱敏電阻或溫度保險絲或覆歸保險絲或溫度感測元件或 熱動金屬片開關串接至插座導電彈片123另一極電源直接輸入插座導 電片127,插座導電彈片123及127中間或可傳熱、幅射熱位置設溫度 11 M343334 開關或熱敏電阻或溫度保險絲或覆歸保險絲或溫度感測元件或熱動金 屬片開關125,另如圖-C可選擇至少-極熱動金屬片開關125或兩極 以導熱體或電源導線導熱串接過載熱動金屬片開關125,可做為插座導 電片接觸不良產生高熱啟斷電源及取電過載取斷電源者。 圖八為一種插座過熱過載安全裝置,簡易插座設過載熱動金屬片 開關或溫度開關或溫度感測元件俯視圖示意圖。 本創作為簡易插座103,該至少一正負極孔插座,插座103設有 插頭插片139及插頭插片140, 一極插頭插片U9電源直接輸入插座導 電片127’另一極插頭插片140與過載熱動金屬片ι〇7熱動金屬片導電 φ 接點112與電源輸入導電片接點113接觸電源輸出導電片104連接至 插座103插座導電彈片123,過載熱動金屬片1〇7可選擇為溫度開關或 溫度感測元件或過載熱動金屬片開關或保險絲或溫度保險絲或覆歸式 保險絲125裝置在插頭插片139及插頭插片140中間或任何適當插座盒 内或插座外殼傳導熱或幅射熱位置,凡在取電使用中過載或插座導電 彈片123或插座導電片127接觸不良產生高熱能啟斷使用電源之元件 均可應用於本創作之安全過熱過載裝置者。 圖八-A為一種插座過熱過載安全裝置,簡易插座設過載熱動金屬 片開關或溫度開關或溫度感測元件剖面圖示意圖。 本創作為圖八-A之剖面圖用意表示圖八-A插座103設一極插頭插 片139及另一極插頭插片140與過載熱動金屬片107熱動金屬片導電接 點112與電源輸入導電片接點113接觸電源輸出導電片104連接至插 座103插座導電彈片123及外殼102插座底座133。 圖八-B為一種插座過熱過載安全裝置,插頭插片中間或適當位 置設過載熱動金屬片開關或溫度開關或溫度感測元件示意圖。 本創作為至少一極插頭115之過載熱動金屬片107開關或溫度開 關或或溫度保險絲或溫度感測元件125與插頭插片139串接輸出電 源,裝置在插頭插片140與插頭插片139中間,另一極插頭插片140 12 M343334 為直接輸出電源,並可選擇性裝置導熱體或導熱矽膠126傳熱或幅射 熱到達設定溫度啟斷電源或選擇裝置過載過熱電源指示燈或警示聲。 圖八C為一種插座過熱過載安全裝置,插頭插片設接點裝置為熱 動金屬片開關或溫度開關或溫度感測元件輸出電源示意圖。 本創作為至少一極插頭115插頭插片139設接點組合裝置為熱動金屬 片開關或溫度開關或溫度保險絲或溫度感測元件125輸出電源,另一 極插頭插片140為直接輸出電源,插頭插片140與插頭插片139中間, 並可選擇性裝置導熱體或導熱矽膠126傳熱或幅射熱到達設定溫度啟 斷電源’當取電過載熱動金屬片開關產生高熱或插座導電片接觸不良 • 產生高熱熱動金屬片彈開導電接點啟斷電源者。 較佳者:滑動開關可改變為翹板開關底部設計柱體做為啟斷熱動 金屬片開關或導通金屬片開關。 較佳者··凡在取電使用中過載或插座導電片接觸不良產生高熱能 啟斷使用電源之元件熱動金屬片開關或溫度開關或溫度保險絲或溫度 感測器’裝置在插座導電彈片週圍適當位置或插座盒内或插座盒外以 導熱或幅射熱傳熱均可應用於本創作之安全過熱過載裝置者。 較佳者:當插座導電彈片接觸不良產生高熱,插座導電彈片以接 ^ 觸或非接觸,傳導熱或幅射熱傳熱至二插座導電極導電彈片中間或適 當導熱位置裝置固定溫度開關或熱敏電阻或覆歸保險絲或溫度感測元 件或熱動金屬片開關,當溫度到達設定點啟斷電源,為達到溫度啟斷 電源維持在啟斷電路應用PTC電熱器與上述元件貼合或傳熱至熱動金 屬片應用,PTC電熱器電源與溫度開關並聯同一極回路,PTC電熱器 缺另一極電源不產生熱度,當取電過載或插座導電片接觸不良產生高 熱啟嶋出電源,此時另—極電源籍取電使用具賴線鶴立即輸入 PTC電熱器產生溫度維持溫度開關或熱敏電阻或覆歸保險絲或溫度感 測70件或熱動金屬片開關在高溫啟斷電源,又者溫度開關與貼合 或傳熱至熱動金屬片應用己習知產品在此敘述使用於本創作者。 13 M343334 較佳者:本創作設有繼電器電磁器電源配合應用’其插座導電彈 片中間裝置之溫度開關或熱敏電阻或覆歸保險絲或溫度感測元件或熱 動金屬片開關可選擇應用,例如電源串接熱動金屬片開關接至插座導 電彈片應用為過載脫啟斷電源,繼電器電磁器電源由熱動金屬片開 關串接熱敏電阻或覆歸保險絲或溫度感測元件輸入電磁器電源,另一 極電磁器電源直接由電源輸入。 較佳者··當插座導電片接觸不良產生高熱,插座導電片以接觸或 非接觸,傳導熱或幅射熱傳熱至二插座導電片中間或適當導熱位置裝 置固定溫度開關或熱敏電阻或溫度保險絲或覆歸保險絲或溫度感測元 • 件或熱動金屬片開關,當溫度到達設定啟斷電源,其在插座片裝置導 熱啟斷電源元件方式多種,在此聲明凡在插座内或插座外裝置因插座 過載或導電片接觸不良產生高熱而取斷電源或發出警示燈、警告聲者 皆屬本創作範圍。 本案所揭示者,乃較佳實施例,舉凡局部之變更或修飾而源於本 案之技術思想而為熟習該項技藝之人所易於推知者,俱不脫本案之專 利權範疇。 綜上所述本創作之結構特徵及各實施皆己詳細揭示,充分顯示出 本創作案在目的及功效上均深富實施之進步性,極具產業之利用價 前市面上前所末見之運用,依專利法之精神所述本創作 5全^新型專利之要件。懇請貴審查委員明察並析早日賜予 專利’俾嘉惠社會實感德便。 M343334 【圖式簡單說明】 圖一為一種插座過熱過載安全裝置,過載熱動金屬片開關導通 與啟斷結構示意圖。 圖二為一種插座過熱過載安全裝置,過載熱動金屬片開關導通 與啟斷俯視結構示意圖。 圖三為一種插座過熱過載安全裝置,過載熱動金屬片開關設有 定位導通俯視結構示意圖。 圖四為一種插座過熱過載安全裝置,過載熱動金屬片開關設有 定位啟斷俯視結構示意圖。 圖五為一種插座過熱過載安全裝置,過載熱動開關及插座插片設 有絕緣導熱體導熱至溫度開關或感測溫度元件結構示意圖。 圖六為一種插座過熱過載安全裝置,繼電器及過載熱動開關及插 座插片設有絕緣導熱體導熱至溫度開關或感測溫度元件結構示意 圖 圖七及圖七A及圖七B及圖七C為一種插座過熱過載安全裝置, 過載熱動金屬片開關裝置於插座導電片適當位置以傳熱或幅射熱 當取電接觸不良產生高熱過載熱動金屬片開關]0&稅啟斷電源示意 圖。 圖八為一種插座過熱過載安全裝置,簡易插座設過載熱動金屬片 開關或溫度開關或溫度感測元件俯視圖示意圖。 圖八-A為一種插座過熱過載安全裝置,簡易插座設過載熱動金 屬片開關或溫度開關或溫度感測元件剖面圖示意圖 圖八-B為一種插座過熱過載安全裝置,插頭插片中間或適當位 置設過載熱動金屬片開關或溫度開關或溫度感測元件示意圖。 圖八C為一種插座過熱過載安全裝置,插頭插片設接點裝置為 熱動金屬片開關或溫度開關或溫度感測元件輸出電源示意圖。 15 M343334 【主要元件符號說明】 101熱動開關結構體 102外殼 103插座 104電源輸出導電片 105電源指示燈或警示聲 106啟斷熱動金屬片接點柱體 107熱動金屬片 108滑動開關 109熱動金屬片接點回覆柱體 11〇開關固定座 111開關外框 112熱動金屬片導電接點 113電源輸入導電接點 114電源輸入固定螺絲 115電源插頭 116電源輸入端子.M343334 VIII, new description: [New technical field] A socket overheating overload safety device, this creative feature includes overload thermal metal plate switch to take power overload automatically ^ ^ off power supply; socket conductive sheet contact poor or overload The electricity generates high heat, and the insulating heat conductor or the radiative heat is transferred to the load component or the temperature switch or the temperature sensing component reaches the set temperature to cut off the power supply at the appropriate position of the conductive strip of the socket; the relay is connected in series with the overloaded thermal metal switch The front input terminal or relay is connected in series with the overloaded thermal metal plate. The switch output socket uses the 'relay electromagnetic power supply from the overload thermal metal plate switch or the temperature sensing component socket conductive piece contact poor or overloaded to generate high thermal start relay Electromagnetic ginseng power supply, this creation ensures that the user can take power in the socket to contact the conductive sheet to produce high heat or wire short circuit or overload. The hot metal switch automatically trips off and disconnects the power supply. The relay can cut off the power in milliseconds. [Prior Art] According to our use of electricity, it has been in existence for a long time. Because of its convenience in supply, all electrical products are powered by electricity. Today, the popularity of electricity has become a measure. One of the important indicators. • It is convenient to use electricity or power supply. At the same time, it also poses a danger. The product must be installed in the power supply. The protection of the socket and the safety of the power supply wire are required to set the fuse to cause a short circuit of the power supply wire. If it is not properly overloaded, the insurance green will automatically start and break immediately to prevent accidents, such as wire fire and product burnout. The use of power fuses has been in use for many years. 'The various types of power supply or socket devices have overload and wire short-circuit power supply. There are choices in their applications. There are advantages and disadvantages of dissolved fuses and non-solvent switches. For example, the fuse type should be replaced, and the fuseless switch does not need to be replaced, but its general start-up time is too slow, so the current power supply requires fast start-off time and 5 M343334 convenience, and the price is focused on safety. The creator uses the relay of the millisecond to break and the metal thermal switch and the socket conductive piece to select the load component or the temperature switch or the temperature sensing component, and the short circuit is turned off by the relay, and the overload is determined by the component of the device. Features start-up power supply, poor contact of the socket generates high heat. The load component or temperature switch or temperature sensing component is matched with the whole component of the socket. It can reach the millisecond and overload load power supply to prevent accidents, such as wire fire, product burnout accident. . [New Content] ® A socket overheat and overload safety device. This creation includes an overloaded thermal metal plate switch to take over the power and automatically trip off the power supply; the contact hole of the socket is poorly contacted or the overload takes power to generate high heat, and the device is placed at the appropriate position of the conductive piece of the socket. The insulating heat conductor or the radiation heat is transferred to the load component or the temperature switch or the temperature sensing component reaches the set temperature to disconnect the power source; the relay is connected in series to the front input end of the overloaded thermal metal plate switch or the relay is connected in series with the overload heat The output end of the metal piece switch is a short-circuit relay for the socket. The power can be cut off in milliseconds. This creation ensures that the user can take power in the socket. The contact piece of the conductive piece is poorly connected or the power is overloaded to generate high heat or overload. The hot metal switch is automatically overloaded. Take off the power supply or the socket using the wire short-circuit relay can take off the power in milliseconds φ, so that the overall components of the socket are matched, and the power supply can be turned off in milliseconds and overload to prevent accidents such as wire fire and product burnout. [Embodiment] A socket overheating overload safety device, the present invention includes an overload thermal metal plate switch to take electrical overload and automatically trip off the power supply; the socket conductive sheet is in poor contact or the overload takes power to generate high heat, and the insulation is used at the appropriate position of the socket conductive piece. The heat conductor heat transfer or radiating heat device load component or temperature switch or temperature sensing component to disconnect the power supply; the relay is connected in series with the front input of the overload thermal metal M343334 type chip switch or the relay is connected in series with the overload thermal metal piece When the outlet of the switch is short-circuited by the socket or the contact with the conductive strip of the socket is bad, the heat transfer of the high thermal heat conductor or the radiation heat reaches the set temperature, and the load element or the temperature switch or the temperature sensing element turns off the relay electromagnetic power supply, and the relay can Milling off the power supply, relay and metal thermal switch and socket conductive piece suitable position device load component or temperature switch or temperature sensing component to match the socket integral component matching application, this creation contains the thermal switch structure body 1〇1 shell 102 socket 103 power output conductive sheet 104 power indicator or warning sound 1〇5 Thermal metal plate contact cylinder 106 thermal metal plate 107 open sliding off 108 thermal metal plate contact back - cover cylinder 109 switch fixed seat no switch outer frame in thermal metal plate conductive contact 112 electric reference source input Conductive sheet contact 113 power input fixing screw 114 power plug 115 power input terminal 116 structure fixing screw 117 switch positioning bump jig switch setting board HQ center shaft 120 spring and fixing seat 121 socket hole 122 socket conductive shrapnel 123 socket conductive sheet Fixing screw 124 temperature switch or thermistor or temperature fuse or override fuse or temperature sensing component or thermal metal plate switch 125 insulation thermal conductor or insulating thermal conductive silicone or insulating heat conductive material 126 socket conductive sheet 127 electromagnetic coil 128 relay 129 Relay power input contact 130 relay power output contact 131 electromagnetic coil 132 socket base 133 start positioning point 134 conduction positioning point 135 start button 136 start button 137 transfer contact 138 face insert 139 plug insert 140, composed It can reach the millisecond and overload load power to prevent accidents, such as wire fire and product burnout. • The picture shows the 过热 socket overheat and overload safety device, and the overload thermal metal plate switch is turned on and off. The present invention is provided with a thermal switch structure 101. The thermal switch structure 101 is fixed to the bottom of the outer casing 102 and is fixed and fixed by the structural fixing screw m. The power input terminal 116 and the thermal metal piece 107 are hot metal > The contact 112 is fastened by a power input fixing screw lock=..., the movable structure 101, the power input conductive strip contact is fixed to the power output and the hot metal sheet is in contact with the hot metal sheet conductive contact 112, the thermal moving gold ... moving metal # conductive contact 112 upper end housing 102 is provided with switch frame 1U order 7 • M343334 sliding compensation 1G8 linear sliding, sliding fine 8 is fixed in the middle of the housing 1G2 and the switch holder 110 'monthly' sliding switch 108 There is a breaking heat-acting plate contact column 106 pushed to the right to the hot metal "7 positioning point to turn off the power supply, sliding _ 108 丨 - end with a heat-moving sheet replying cylinder 109 sliding switch 1 〇 8 push left heat The movable metal #1〇7 thermal metal plate conductive contact 112 is in contact with the power supply wheel conductive pad contact 113 to contact the power output conductive piece 1〇4, and the overload metal piece 107 is an overloaded spring contact point. Just reply or automatically reply and can install the temperature to Turn off the power warning light or warning sound 1 () 5, slide switch 108 push back to cover the hot metal #1〇7 hot metal plate conductive contact ιΐ2 and then reply to the reference - Figure on the start of the thermal block contact column 1〇6 and the hot-moving piece reply column think! (10) The gap heat-moving piece Φ bounce distance 'ready power is plugged in with the power plug 115, the pole direct input socket 1〇3 another-pole connected to the power input conductive sheet 116 The thermal contact metal flip 1G7 thermal metal plate conductive contact 112 is connected with the power input conductive piece, the point 113 is in contact, and the power supply wheel exits the conductive piece 1〇4 conductive output to the socket. Fig. 2 is a type of socket overheating overload safety device, Overhead thermal metal (4) Schematic diagram of the on-off and turn-off top view. This figure is a schematic view of the top view, similar to Figure 1. It is not described in Figure 1. Figure 3 is a kind of socket overheating · full device, over the moving metal sheet Schematic diagram of the positioning conduction top view. The summer creation slide switch 108 is provided with a switch positioning bump 118, which extends into the switch positioning plate 119, and the switch positioning plate 119 is provided with a conduction positioning point 135, the opening and positioning point 134, the switch positioning plate j 19 central axis 120 is the center of rotation, and the switch positioning plate is provided outside the jig. The spring piece and the fixing seat 121, when the power source is used, the sliding switch 108 is used to push the left side of the hot metal piece to return the column body 1〇9 to push the overload thermal metal piece 1G7 the thermal metal piece conductive contact 112 and the power input conductive piece contact point. After the contact is turned on, the switch positioning plate 119 is covered by the elastic piece and the fixing seat 121 to the conduction positioning point 135, and the thermal metal plate contact returning column 1〇9 has a gap when the overload is actuated by the metal piece 1〇7. If the source_body 106 pushes the overloaded thermal metal sheet 107, the thermal metal sheet conductive contact 112 and the power input guide M343334, the wafer contact 113', the switch positioning plate 119 is turned on and off at the opening and positioning point 134. Figure 4 is a socket overheat and overload safety device. The overload thermal metal plate switch is provided with a schematic structure diagram of the positioning and opening. The creative slide switch 108 is provided with a switch positioning bump 118, which extends into the switch positioning plate 119', and the switch positioning plate 119 is provided with a conductive positioning point 135 to open the positioning point 134. The switch positioning plate 119 has a central axis 120 as a rotation center, and the switch positioning plate 119 is provided with a spring piece and a fixing seat 121. When the power supply slide switch 108 is to be turned off, the hot metal piece contact column 1〇6 is pushed to push the overload thermal metal piece 107 contact 112 and the power input conductive piece contact point. 113. The switch positioning plate 119 is turned on and off at the opening and positioning point 134. • Figure 5 shows a socket overheat and overload safety device. The overload thermal switch and the socket insert are provided with a structure of heat conduction to the temperature switch or sensing temperature element. The creative overload thermal switch and the socket 103 socket conductive elastic piece 123 are provided with an insulating heat conductor 126 for heat transfer or radiation heat to a temperature switch or a sensing temperature element combination application, and when the socket is powered, the overload is replaced by an overload thermal metal plate 107. The spring is turned off and the power is turned off. Please refer to the third and fourth figures for the switch part of the above-mentioned thermal metal plate 107. The sockets on the 1st and 3rd sides of the case are provided with the socket conductive elastic pieces 123 and 127, and the socket conductive piece fixing screws 124 are fixed to the socket. The base 133, the middle of the socket conductive elastic piece 123 is an extension cord plug socket 122, and the socket conductive elastic piece 123 and 127 are disposed at appropriate positions for contact or non-contact heat transfer or radiation heat fixing temperature* switch or thermistor or thermal fuse or The reset fuse or temperature sensing element or the thermal metal plate switch 125 when the set temperature reaches the power supply to prevent the socket conductive foils 123 and 127 from being in contact with each other to cause the high heat socket 103 to be burned, for faster and more precise conduction in the socket 1〇3 socket Suitable positions around the shrapnel 123 and 127 for contact or non-contact heat transfer or radiation heat device insulation or thermal insulation or thermal insulation 126 heat conduction or radiation heat to the middle or any position of the conductive shrapnel 123 and 127 of the two-pole socket, the temperature switch or the thermistor or the thermal fuse or the return fuse or the temperature sensing element or the thermal metal fixed at the appropriate heat conduction position When the set temperature reaches the power-off power supply and the optional device turns off the power warning light or the warning sound 105, the socket conductive foils 123 and 127 are prevented from being in contact with each other to generate a high-heat plug 9 M343334 socket 103 is burned, so that the designed device can guarantee overload And the contact iQ3 socket conductive shrapnel 123 and 127 are in poor contact, resulting in a fire accident caused by high heat. Figure 6 is a socket overheating overload safety device. The relay and the overload thermal switch and the socket insert are provided with a structure of heat conduction to the temperature switch or the sensing temperature element. The present invention is a fully secured socket structure, and the relay 129 and the overload thermal switch 107 and the socket 103 socket conductive elastic piece 123 are provided with an insulating heat conductor 126 to conduct heat to a temperature switch or a temperature sensor element 125 to ensure the socket structure. Refer to Figure 3 for the overload thermal metal sheet 1〇7. The socket 103 socket conductive elastic piece 123 is provided with an insulating heat conductor 126 for heat conduction to the temperature switch or the sensing temperature element 125. Please refer to Figure 5, this figure only describes the relay and overload φ The thermal metal sheet 107 is combined with the temperature switch or the temperature sensing element 125. When the power is taken, the slide switch 108 is used to push the hot metal sheet to the left. The thermal metal sheet conductive contact 112 is connected to the power input conductive sheet. The point 113 contacts the power output conductive sheet 1〇4 and is connected to the socket 1〇3 socket conductive elastic piece 123. The other pole power supply of the socket 103 is directly input into the socket 1〇3 socket conductive elastic piece 127 by the plug 115, and the socket conductive elastic piece 127 is connected in series with the temperature switch. Or the thermal fuse or temperature sensor component 125 is connected to the relay 129 solenoid coil 128 position, and the other pole power source is directly input by the plug 115 to the power input contact 130 of the relay 129. The other pole electromagnetic coil contact 132 of the electric appliance 129 is connected to the start button 136 by the hot metal sheet 1〇7 thermal metal sheet conductive contact Π2 and the source input conductive sheet contact 113, and the electromagnetic contact is maintained through the contact point 138. The caller coil contact 132, when the power is used, presses the relay 129 to activate the button 137 electromagnetic attraction, the power input contact 130 turns on the relay output contact 丨31, and the power input overload thermal metal plate 107 is thermally conductive metal plate conductive connection. The point 112 is in contact with the power input conductive pad contact 113. The power output conductive strip 104 is connected to the socket 103. The conductive elastic piece 123 is used for power supply. When the socket conductive elastic piece 123 or 127 is in poor contact, high heat is generated to reach the temperature switch or the temperature sensor component setting point. Breaking relay 129 electromagnetic coil 128 power supply, electromagnetic magnetic pick-off and simultaneous opening of relay output contact 131 power supply, when power overload is caused by overload thermal metal sheet 7 tripping power supply, breaking relay 129 electromagnetic coil 132 power supply At the same time, the relay output contact 131 power is turned off, and when the socket conductive elastic piece 123 and the socket conductive elastic piece 127 are short-circuited, the voltage M343334 is lowered by the relay 129, and the electromagnetic voltage is insufficient. The second opening of the socket conductive elastic piece 123 and the socket conductive elastic piece 127 power supply, the combined application can ensure the safe use of the socket. Figure 7 and Figure 7A and Figure 7B and Figure 7C are a type of socket overheating overload safety device. The overloaded thermal metal plate switch device is heated at a suitable position on the conductive strip of the socket to generate heat and heat. The hot metal plate switch trips off the power supply. The creation is that the overloaded thermal metal plate switch 125 is disposed at a suitable position around the socket conductive elastic sheets 123 and 127 to transfer heat or radiate heat to the overloaded thermal metal plate switch 丨25, and the thermal metal plate switch 125 is connected in series to apply temperature. Switch or thermistor or thermal fuse or override fuse or temperature sensing component or thermal metal plate switch, power plug 115 - terminal to relay φ 129 power input point 130 and other pole power supply to socket conductive piece 127, relay The 129 electromagnetic coil 132 is input by the power source, and the other pole is connected in series through the heat transfer metal plate switch 125 to the socket conductive elastic piece 123 in series to the relay 129 electromagnetic coil 128. When the power is used, the start button 137 relay 129 is pressed. The electromagnetic flux conduction relay power output 131 to the overload thermal metal plate switch 125 is connected in series to the socket conductive elastic piece 123. When the socket conductive elastic piece 123 or 127 is in poor contact, high heat transfer or radiation heat is generated to the overload thermal metal plate switch 125. , overload thermal metal plate switch sea ^ off the power supply, while relay 129 electromagnetic coil 128 power start relay 129 magnetic jump off the power supply, power off The relay 丨 29 presses the start button 136 to turn off the electromagnetic coil 128. The power relay 129 magnetically jumps off and breaks the power supply, so that the heat-transfer metal piece 125 switch can be used as a high-heat breaking power supply for the contact of the socket conductive piece and Take power overload to cut off the power supply, another relay 129 can choose the device or switch as shown in Figure 7-A as the power switch, power supply one-pole input temperature switch or thermistor or thermal fuse or override fuse or temperature sensing component or heat The movable metal switch is connected in series to the socket conductive elastic piece 123, and the other pole power source is directly input into the socket conductive piece 127, and the device can be overloaded and the power supply indicator 105 or the warning sound is overloaded, and the power switch can be omitted as shown in the seventh figure _b At least one pole power supply serial temperature switch or thermistor or thermal fuse or the return fuse or temperature sensing component or the thermal metal plate switch is connected in series to the socket conductive elastic piece 123 and the other pole power supply directly inputs the socket conductive piece 127, the socket is electrically conductive The middle of the shrapnel 123 and 127 may be heat transferable, the radiating heat position is set to a temperature of 11 M343334 switch or thermistor or thermal fuse or the overlying fuse or temperature sensing element Or the thermal metal plate switch 125, and the at least --pole thermal metal plate switch 125 or the two poles may be thermally connected to the thermal conductor or the power supply wire to connect the overload thermal metal plate switch 125, as a socket conductive sheet contact. Poorly generated high-heat start-up power supply and take power overload to cut off the power supply. Figure 8 is a schematic diagram of a top view of a socket overheating overload safety device with a simple socket with an overloaded thermal metal plate switch or a temperature switch or a temperature sensing element. The present invention is a simple socket 103, the at least one positive and negative hole socket, the socket 103 is provided with a plug insert 139 and a plug insert 140, a pole plug insert U9 power directly input socket conductive piece 127' the other pole plug insert 140 And the overload thermal metal sheet ι〇7 thermal metal sheet conductive φ contact 112 and the power input conductive sheet contact 113 contact power output conductive sheet 104 is connected to the socket 103 socket conductive elastic piece 123, the overload thermal metal sheet 1〇7 can Selectively a temperature switch or temperature sensing element or an overloaded thermal metal plate switch or fuse or thermal fuse or blanket fuse 125 device to conduct heat between the plug blade 139 and the plug blade 140 or any suitable socket box or socket housing Or the radiation thermal position, any component that is overloaded during power usage or the socket conductive elastic piece 123 or the socket conductive piece 127 is in poor contact to generate high heat energy to turn off the power supply can be applied to the safe overheating overload device of the present invention. Figure VIII-A is a diagram of a socket overheating overload safety device. The simple socket is provided with a schematic diagram of an overloaded thermal metal plate switch or a temperature switch or a temperature sensing element. The present invention is a cross-sectional view of FIG. 8A, which is intended to be used to illustrate FIG. 8 - A socket 103 is provided with a pole plug blade 139 and another pole plug blade 140 and an overload thermal metal plate 107 thermal metal plate conductive contact 112 and power supply The input conductive sheet contact 113 contacts the power output conductive sheet 104 and is connected to the socket 103 socket conductive elastic piece 123 and the outer casing 102 socket base 133. Figure VIII-B is a diagram of a socket overheat and overload safety device with an overloaded thermal metal plate switch or temperature switch or temperature sensing element in the middle of the plug insert or at an appropriate position. The present invention is an overload thermal metal plate 107 switch or temperature switch of at least one pole plug 115 or a thermal fuse or temperature sensing component 125 and a plug insert 139 in series with an output power supply, which is disposed at the plug blade 140 and the plug insert 139. In the middle, the other pole plug insert 140 12 M343334 is a direct output power supply, and can selectively heat the heat conductor or the thermal conductive rubber 126 to reach the set temperature to turn off the power supply or select the device overload overheating power indicator or warning sound . Fig. 8C is a socket overheating overload safety device, and the plug inserting device is a schematic diagram of a hot metal plate switch or a temperature switch or a temperature sensing element output power. The present invention is that at least one pole plug 115 plug insert 139 is provided with a contact assembly device for a thermal metal plate switch or a temperature switch or a temperature fuse or temperature sensing element 125 for output power, and the other pole plug blade 140 is a direct output power source. The plug insert 140 and the plug insert 139 are intermediate, and the heat conductor or the heat transfer adhesive 126 can be selectively connected to the heat transfer or the radiated heat reaches the set temperature to turn off the power supply. When the power overload thermal metal switch is used to generate high heat or the socket conductive sheet Poor contact • Produce a high-heated hot metal sheet to open the conductive contacts to turn off the power. Preferably, the slide switch can be changed to a design cylinder at the bottom of the rocker switch as a thermal switch or a metal switch. Preferably, the driver is overloaded in the use of power or the contact of the conductive pad of the socket generates high thermal energy. The component of the power supply is switched off. The thermal metal plate switch or the temperature switch or the temperature fuse or the temperature sensor is disposed around the conductive elastic piece of the socket. The heat transfer or radiation heat transfer in the proper position or in the socket box or outside the socket box can be applied to the safe overheating overload device of the present invention. Preferably, when the conductive tab of the socket is in poor contact, high heat is generated, and the conductive elastic piece of the socket is contacted or non-contacted, and heat or radiation heat is transferred to the middle of the conductive spring of the two socket conductive electrodes or the heat conduction position device is fixed to the temperature switch or the heat. A varistor or an over-relay fuse or temperature sensing element or a thermal metal plate switch, when the temperature reaches the set point to turn off the power supply, to achieve the temperature, the power supply is turned off, and the PTC electric heater is applied to the breaking circuit to be attached or transmitted with the above components. For the application of heat to the hot metal sheet, the PTC heater power supply and the temperature switch are connected in parallel with the same pole circuit. The PTC heater lacks the other pole power source and does not generate heat. When the power is overloaded or the socket conductive sheet is in poor contact, the high heat starts to output power. When the other - the power source is used to take power, the cable is used to immediately input the PTC heater to generate the temperature to maintain the temperature switch or the thermistor or the return fuse or the temperature sensing 70 or the thermal metal plate switch to turn off the power at high temperature, and The use of temperature switches and bonding or heat transfer to thermal metal sheet applications is described herein for use by the creator. 13 M343334 Preferred: This creation is equipped with a relay electromagnetic power supply with the application of its socket conductive shrapnel intermediate device temperature switch or thermistor or overlying fuse or temperature sensing element or thermal metal plate switch selectable application, for example The power supply is connected to the thermal metal plate switch and connected to the socket. The conductive shrapnel is applied as an overload de-energizing power supply. The relay electromagnetic power source is connected to the thermistor by the thermal metal plate switch series the thermistor or the returning fuse or the temperature sensing component. The other pole of the electromagnetic power supply is directly input from the power source. Preferably, when the contact hole of the socket is in poor contact, high heat is generated, and the socket conductive piece is contacted or non-contacted, and heat or radiation heat is transferred to the middle of the two-outlet conductive piece or a suitable heat conduction position device is fixed to the temperature switch or the thermistor or The temperature fuse or the return fuse or the temperature sensing element or the thermal metal plate switch, when the temperature reaches the set power supply, the heat dissipation of the power supply component in the socket device is various, and it is stated here that the socket or the socket It is within the scope of this creation that the external device is disconnected from the power supply due to overload of the socket or poor contact of the conductive sheet, and the power is turned off or the warning light is issued. The disclosure of the present invention is a preferred embodiment, and any part of the modification or modification that originates from the technical idea of the present invention is easily recognizable to those skilled in the art, and does not deviate from the scope of patent rights of the present invention. In summary, the structural features and implementations of this creation have been revealed in detail, which fully demonstrates that the purpose of this creation is rich in progress in terms of purpose and efficacy, and it is extremely popular in the market before the end of the market. Use, in accordance with the spirit of the patent law, the creation of 5 full ^ new patent requirements. I ask your review board to examine and analyze the patents granted to you. M343334 [Simple description of the diagram] Figure 1 is a schematic diagram of the socket overheat and overload safety device, the conduction and breaking structure of the overload thermal metal plate switch. Figure 2 is a schematic diagram of a superheated overload safety device for the socket, and the top view of the overloaded thermal metal plate switch is turned on and off. Figure 3 is a socket overheat and overload safety device. The overloaded thermal metal plate switch is provided with a schematic view of the positioning conduction. Figure 4 is a socket overheat and overload safety device. The overloaded thermal metal plate switch is provided with a schematic structure of the positioning and opening. Figure 5 is a socket overheating overload safety device. The overload thermal switch and the socket insert are provided with a structure of heat conduction to the temperature switch or the sensing temperature element. Figure 6 is a socket overheat and overload safety device. The relay and overload thermal switch and socket insert are provided with an insulating heat conductor to conduct heat switch to the temperature switch or sense temperature component. Figure 7 and Figure 7A and Figure 7B and Figure 7C For a socket overheating overload safety device, the overload thermal metal plate switch device is in a proper position of the conductive piece of the socket to heat transfer or radiate heat. When the electrical contact is poor, a high thermal overload thermal metal plate switch is generated. Figure 8 is a schematic diagram of a top view of a socket overheating overload safety device with a simple socket with an overloaded thermal metal plate switch or a temperature switch or a temperature sensing element. Figure VIII-A is a socket overheating overload safety device. The simple socket is equipped with an overload thermal metal plate switch or a temperature switch or a temperature sensing component. FIG. 8B is a socket overheating overload safety device, the plug insert is in the middle or appropriate The position is set with an overload thermal metal plate switch or a temperature switch or a temperature sensing element. Fig. 8C is a socket overheating overload safety device, and the plug inserting device is a schematic diagram of a hot metal plate switch or a temperature switch or a temperature sensing element output power. 15 M343334 [Main component symbol description] 101 thermal switch structure 102 housing 103 socket 104 power output conductive sheet 105 power indicator or warning sound 106 breaking hot metal sheet contact cylinder 107 thermal metal sheet 108 sliding switch 109 Thermal metal plate contact reply column 11 〇 switch holder 111 switch outer frame 112 thermal metal plate conductive contact 113 power input conductive contact 114 power input fixed screw 115 power plug 116 power input terminal
117熱動片結構固定螺絲 118開關定位凸點 120中心轴 Π9開關定位板 121彈片固定座 122插座孔 123插座導電彈片 124插座導電片固定螺絲 125溫度開關或熱敏電阻或溫度保險絲或覆歸保險絲或溫度感測 元件或熱動金屬片開關117 thermal sheet structure fixing screw 118 switch positioning bump 120 center axis Π 9 switch positioning plate 121 shrapnel holder 122 socket hole 123 socket conductive shrapnel 124 socket conductive sheet fixing screw 125 temperature switch or thermistor or thermal fuse or return fuse Or temperature sensing element or thermal metal plate switch
126絕緣導熱體或絕緣導熱發膠或絕緣熱材質 127插座導電片 129繼電器 131繼電器電源輸出接點 133插座歲座 135導遂定位點 137啟動丛鍵 139插頭插片 128電磁器線圈 130繼電器電源輸入接點 132電磁器線圈 134啟斷定位點 136啟斷按鍵 138維持接觸點 140插頭插片 16126 Insulation Thermal Conductor or Insulation Thermal Conductor Hair Insulation or Insulation Thermal Material 127 Socket Conductive Sheet 129 Relay 131 Relay Power Output Contact 133 Socket Age Block 135 Guide Point 137 Start Clump Key 139 Plug Insert 128 Electromagnetic Coil 130 Relay Power Input Point 132 electromagnetic coil 134 is turned off and set point 136 is turned off button 138 to maintain contact point 140 plug insert 16