1293025 •九、發明說明·· 【發明所屬之技術領域】 ’本發明係屬-種液媒調溫器之技術領域,尤指一種使用 在床鋪上能調節軟墊溫度之調溫軟墊裝置及其液媒調溫器。 【先前技術】 灰按般要獲得舒適睡眠,除了使用空調等來調整寢室 氣溫外,維持寢具於適當溫度也是重要因素。 目此,有些人使用㈣及電毯㈣溫器具來溫暖寢具; 但是,除了在冬季昇溫之外,在夏季適度冷卻寝具,去除酷 暑難以入眠之苦則逐漸被重視,例如,日本特開平HU" 號公報’使空調設備吹出之冷溫風導入床鋪下部之裝置;然 而’在這種使用冷溫風之裝置中,因為空氣熱容量^小,’調 整到適當溫度需要很長的時間,而且會產生風切音及微振 動,而有妨礙睡眠之問題。 水箱(a)内以電熱管(1))加熱過之液媒,自設置在水箱(a) 内部之循環幫浦(d)透過供給管(e)往軟墊循環;在夏天, 則藉由包含插入有供給管(e )之冷卻器(f )、壓縮機^) 及蒸發器(h)之熱幫浦(i ),使流動在供給管(e )之液媒 吸熱而冷卻軟墊之調溫軟墊裝置’例如,曰本實用新案登錄 第30 80 0 45號公報。 然而,此種調溫軟墊裝置,循環幫浦(d)係設置在水 箱(a)内之液媒中,所以,循環幫浦⑷之維修點檢及修 1293025 (d )之配 理很費時間,而且,必須在液媒中配置循環幫浦 電線,水相(a )需大型化,而造成在床側需設置大型機器, ’而有妨礙使用之問題;又,當冷卻軟墊時,液媒會吸熱係僅 在冷卻器(f )中流動時,所以熱交換效率很差,而有軟墊 無法充分冷卻之問題;而且,當為了充分冷卻軟墊而使冷卻 器(f )内維持相當的低溫時,會有熱幫浦(丨)大型化之問 【發明内容】 為此本發明之主要目的係提供一種液媒調溫器,藉由 使儲液槽底面局部提高而形成向下開放之凹部,使循環幫浦 收納在凹部,而且,使熱幫浦冷卻管配置在儲液槽内當作基 本配置,提高運轉效率且使構造小型化,而且,使循環幫浦 等之保養變得容易之調溫軟墊裝置及其液媒調溫器。 為了達成上述目的,本發明係提供一種液媒調溫器,其 具備佈滿流通調溫用液媒之液媒流路之調溫軟塾及供給液 媒到液媒流路及回流之液媒調溫器, 其中’液媒調溫器係使儲存液媒之儲液槽、循環液媒於 儲液槽與調溫軟墊間之循環幫浦、具有加溫液媒之加溫部之 加熱器、冷卻液媒之冷卻機構、以及為了控制液媒往調溫軟 墊之循%而控制包含循環幫浦與加熱器與冷卻裝置之控制 機構收納在套殼内,同時,儲液槽,在底部,藉由使底部局 部提兩而形成向下開放之凹部,而循環幫浦收納在該凹部, 而且,冷卻機構,係使用具備壓縮冷媒之壓縮機、使以壓縮 機壓縮之冷媒液化之冷凝機、及藉由膨脹被液化冷媒而吸熱 1293025 之冷卻管的熱幫浦來構成,同時,冷卻f係配置在儲液槽内。 其中,儲液槽係在朝向凹部之槽壁形成有取出液媒之液 體出口及回流液媒之液體人口,㈣,冷卻管及加熱器至少 一部份’係設在儲液槽内、朝向凹部之槽壁附近及在儲液槽 其中,冷凝機,係包含:蛇管單元,循環冷媒之同時, 配置在儲液槽下方;以及冷卻風扇,空冷蛇管單元之同時 在儲液槽下方與蛇管單元並列配置,在套殼設有冷卻風扇、 流過蛇管單元之空氣會通過之通風吸氣口、及通風排氣口。 其中’加熱器係以設於儲液槽槽壁之恆溫器來控制; 其中’液媒調溫器係包含負離子產生器,而且使負離子 輸出端子配置在通風排氣口。 接下來會列舉一較佳實施例,並配合圖示及圖號,對本 ,明其他的目的及效能做進一步的說明,期能使貴審查委 員對本發明有更詳細的瞭解,並使熟悉該項技術者能據以實 ^下所述者僅在於解釋較佳實施例,而非在於限制本發 明之辄圍’故凡有以本發明之發明精神為基礎,而為本發明 ^發明任何形式的變更或修飾,皆屬於本發明意圖保護之範 【實施方式】 首先,參照圖面詳細說明本發明之一實施形態。 如第一圖所示,調溫軟墊裝置(1),係具備佈滿液媒流 路(30)之調溫軟墊(M)及供給液媒到液媒流路(3〇)及 回流之液媒調溫器(2 )。 7 1293025 …液媒’係藉由在液媒調溫器(2)内被加熱或冷卻,而 循環在調溫軟墊⑷液媒流路(3G)内,而調節調溫軟塾 ’⑷溫度之物件。液媒’係使用自來水、防鏽劑、添加防 腐材料等之水、乙二醇、丙二醇、等液體。 液媒调溫器(2),如第七所+,总丄 u如弟七圖所不,係由儲存液媒之儲液 槽⑺、環流液媒之循環幫浦⑷、加溫液媒之加熱器(6)、 冷部液媒之冷卻機構⑺、控制機構(8)及套殼⑷所構 成0 辟攸價Q 3 ),如繁四HI 够:r回化- 圖、第五圖所不,係上部形成矩形 凹邛(10 )。而且如第六圖所示,在朝向凹部(1〇)之槽壁 (3W)中,使自儲液槽(3 )取出液媒之㈣出口⑴^ 自儲液槽(仏 ^ ^ # ( 3 ) ^ # ^ ^ m ^ ( 41 ), 同夺士成有自開口緣往外擎 、(2 )外緣略同形狀之蓋板(4 3 )係截置在顎部1 上,同時^ 在蓋板(43 )中,安裝有朝向儲液槽(3 )内部而垂 下之水位偵知器(59)。 又,儲液槽(3 ),如第二 =(2)基盤(45)之架台(一 著件來加以固冑。儲液槽(3 碳酸醋、聚丙烯、聚苯乙烯、 金屬及其他材料來製成。 ‘圖所示,係在立設於液媒調溫 46)上,使用未圖示螺絲等固 ),係使用不飽和聚酯塑膠、聚 FRP等塑膠、不銹鋼、鋼板等 1293025 循J哀幫浦(4 ),係使液媒循環在儲液槽(3 )與調溫軟 墊(Μ )間之物件,在本形態中,雖然例示與馬達一體型渦 捲幫浦,但是,也可使用透平幫浦、葉片幫浦、柱塞幫浦、 隔膜幫浦及齒輪幫浦等各種幫浦。循環幫浦(4 ),如第二圖 及第五圖所示,能收納在儲液槽(3)凹部(1〇)内,同時, 透過金屬安裝件(48),固定在架台(46)及儲液槽(3)。 而且在與朝向循環幫浦(4 )之液體出口( 1 5 )間,配管 有出液管(49 ) 〇 如此一來,循環幫浦(4),係配置在儲液槽乂 3 )外, 所以,在維修及保養點檢時,能容易地作業。又,因為配置 在循環幫浦(4)外,所以’儲液槽(3 )本身能小型化,而 ^因為收納在儲液槽(3)底面凹部(10),所以,液媒調 vm器(2)整體能小型化,例如配置在床鋪下部或床邊等不 妨^使甩之場所’能便科Μ 凹( 1 〇 乂之循壤幫浦(4 ),係當設於朝向凹部U 壁(3W)時,會接近液體出口(15),所以,出液管(心) , (2) 抑制配管路徑之熱損失。 而且’如第七圖所示’在循環幫,(4)與液媒調溫 (2)达液口( 5〇)之間,配管有使自循環幫浦(4)壓送 之液媒送出之送液管(51)。而且,㈣十圖所示,送液 、(5〇)透過連接軟f (63)而連接到調溫軟墊Μ受液口(61 液媒則被送人續、、w f、 、、I㈣⑷。同樣地,在與送液口(50) 列之液口( 52)與儲液槽(3)液體入口( 16)之間,. 1293025 a管有自調溫軟墊(Μ )回流之液媒會通過之液體回流管(5 3 )。 ’而且’迎液口( 52 ),係透過連接軟管(63 )連接到調溫軟 ’塾(Μ)液體回流口( 62 ),液媒自調溫軟墊(μ )回流。 加熱器(6),如第四圖、第五圖所示,在儲液槽(3) 槽壁(3W )安裝有水密性貫通的υ字形加溫部(5 )。本形態 之加溫部(5),係在内部具有鎳鉻線,與安裝在槽壁(3W) 之恆溫器(21 )串接。如此一來,本形態之加熱器(6 ),係 最好以檢知儲液槽(3 )内液媒溫度的恆溫器(21 )來控制, 所以’使液媒維持在設定溫度,能溫暖調溫軟墊(M)到適 溫。 * 加熱機構(7 ),如第七圖所示,由具有壓縮機(丨丨)、 液化液媒之冷凝機(12)及冷卻管(13)之熱幫浦(14)來 構成。壓縮機(11),係使用所謂壓縮機來構成^ 液媒,能獲得高溫高壓之液媒。 ^ 冷凝機(12 ),在本形態中,係腐 與冷卻風扇(18 )所構成之物件,冷卻高溫高壓冷媒而使其 液化蛇目單兀(17),如第三圖所示,係包含通過高溫高 壓冷媒之蛇行管及安裝在蛇行管上之多數散熱片,配置在儲 液槽(3)下方之架台(46)内部。又,冷卻風扇(⑻,如 第二圖所示’係藉由將風送人蛇管單元(17)散熱片而空冷 蛇行管内冷媒之物件,液媒因為溫度降低而液化。又,冷卻 風扇(⑷,係在儲液槽(3)下方與蛇管單元(⑺並列配 置如此來,本形態之冷卻風扇(1 8 ),係與蛇管單元(丨7 ) 並列配置,所以,能提高冷凝機(12)之冷卻效率。而且, 1293025 - 冷卻風扇(1 8 )及蛇管單元(1 7 ),最好係配置在儲液槽(3 ) /下方,所以,能減少内部無用之間隙,使液媒調溫器(2 ) /整體小型化。 冷卻管(13),如第四圖、第五圖所示,在儲液槽(3) 内配管成螺旋狀,本形態之冷卻管(13 ),係配置在加熱器 (6)下方。又,冷卻管(13)及加熱器(6),其至少局部 係在儲液槽(3 )内部,配置在朝向凹部之槽壁(3 W)旁邊。 而且,液化且更加膨脹而低溫化之冷媒,在通過冷卻管(13 ) 内時,於儲液槽(3 )内吸熱,結果,液媒被冷卻。循環過 冷卻管(13 )之冷媒,係再度回流到壓縮機(11 )而重複上 述循環。如此一來,冷卻管(13),係在儲液槽(3)内部浸 潰於在液媒中,所以,冷媒在循環於儲液檜内冷卻管内時, 液媒被充分冷卻。結果’熱幫浦(14 )之運轉效率會提高, 也能使用小型之物件。 控制機構(8 ),儀也 的物件,如第八圖所示,包含主揸 制部(8A )、力u熱器控制部(86)、及控制冷卻風扇(18)與 壓縮機(11 )之熱幫浦控制部(8(:),配置在第三圖所示之 控制箱(55)内。又,在連接到主控制部(8M)之操作面板 (56) 中,設有表示包含液媒溫度之運轉狀態的顯示led (57) 、及操作運轉開閉與調溫軟墊M溫度設定之運轉輸入 部(58)。而且’水位偵知器(59)’如第七圖所示,係自設 在液體出口 U9)之液媒溫度偵知器(6〇)及室溫谓知器(61) 送出之測定訊號會輸入到主控制部(8M),主控制部(训) 1293025 會依據自運轉輸入部(58 )送來的媒备 > 咕+ 4 求的刼作訊號來作動液媒調溫 ▼益(2 )。又,也可在儲液槽内部, 怎 取代液媒溫度偵知器(6 0 ) •或者在液媒溫度偵知器(6〇) <外追加设置液媒溫度偵知器 (64)(第七圖中心線所示)。 如第九圖所示,當藉由操作面板(56)運轉輸入部(58) 而輸入開始運轉(70)訊號時,透過循環幫浦控制部(…, 循裱幫浦(4)會開始運轉(71)。而且,將自運轉輸入部(58) 輸入之設定溫度與液媒溫度债知器(6〇)所測定之液媒溫度 加以比較(72 ),當液媒溫度較低時,透過加熱器控制部 (8B ),加熱器(6)會作動而調溫軟墊(]〇會被加熱(73)。 反之’當液媒溫度較高時,透過熱幫浦控制部(8C ),熱幫 浦(14)會作動(74),而冷卻調溫軟墊(。又,對於液 媒溫度之變化及設定溫度之變更,會阋 (M )維捧在設定溫度。而且,當輸入自運轉輪入部(58 ) 送來之停止運轉訊號時(7 5 ),加^^熱 及循環幫浦(4)會停止(76 )( 77 )1 轉會結束。而且,藉由主控制部(8M)内之計時功能,也 自動開閉運轉(78 )。 套殼(9 )’如第一圖、第二圖所示’係下方開口之略成 立方體狀之箱形體。套殼( 9),係在上部傾斜部安裝有操作 面板(5 6 ),且分別形成有朝向冷卻風扇(1 8 )及蛇管單元 (17)而接合之通風吸氣口(19)及通風排氣口(20)。通 風吸氣口( 19 )及通風排氣口( 20 ),係安裝有各種裝飾材, 會通過被冷卻風扇(18)吸引而空冷蛇管單元(17)之空氣。 12 1293025 <又,在通風排氣口( 2〇)下部,安裝有連接到連接軟管(63) ,之迗液口(50)及迎液口(52)。而且,套殼(9),如第二 •圖所示’下方開口藉由基盤(45)被封住,藉此,收納儲液 槽(3 )、循環幫浦(4 )及冷卻機構(7 )等。 本形態之液媒調溫器(2),如第二圖及第八圖所示,内 藏有負離子產生器(22 )。構成負離子產生器(22 )之負離 子輸出端子(23),在本形態中,係配置在通風排氣口( 2〇), 在以冷卻風扇(18)吹出之排氣中產生負離子之構成。如此 一來,在液媒調溫器(2)運轉同時產生之負離子所致之舒 緩效果會促進安眠,而且也具有療效。 調溫軟墊(M),如第十圖所示,係由軟墊基體(33>、 及形成液媒流路(3 0 )之軟管體(1!)所構成。教墊基體(33), 在無負荷狀態中會成矩形厚板狀,在通常向上配置之一面 上,形成有插入保持軚管體(们之凹槽部卜认 槽部(31 >,係由縱命^ 成,藉由縱向凹槽(31L )及橫向银翁^ 凹槽圖案(3 2 )。又,軟塾基體(33)係以海綿材料構成, 具體說來,係使用尿烧發泡體、聚乙烯發泡體等。 縱向凹槽(31L),係在軟墊基體(33)兩側部中各2條, 連結頭侧及腳側之縱向也有2條,合計形成4條。又,縱向 凹槽(31L ),係自軟墊基體(3 3 )頭側邊到腳側邊,直線狀 連續形成軟墊基體(33)上表面。結果,在縱向凹槽(31l) 兩端部上,在兩邊端面形成有往水平方向開放之開放凹槽部 (36)〇 13 1293025 另外,橫向凹槽(31B),係在軟墊基體(33 )橫向延伸, 複數條自腳侧到頭側以等間隔隔設。而且,與縱向凹槽(WL) •相同地,在軟墊基體(33 )兩侧邊間使軟墊基體(33 )上表 面成直線狀連續,結果,在兩側邊端面上形成往水平方向開 放之開放凹槽部(36)。而且,在本形態之凹槽圖案(Μ) 中,設有在軟墊基體(33 )頭側不形成橫向凹槽㈠丨^乂之 一定領域。 如此—來,縱橫直行配置之縱向凹槽(31L)及橫向凹 槽(31B)’在各對向邊中’到分別往水平方向開放之開放凹 槽部(36)為止,在軟墊基體(33)表面上直線性連續形成, 所以’在平面狀軟墊基體(33)表面形成凹槽之加工能容易 地實施。亦即,雖然軟墊基體(33)富有變形性,但是,例 如藉由使平行張設在教墊基體(33)表面之熱線,沿著凹槽 剖面形_軟墊基|〔看 之作業,所以’並不需要熟練技術,生產性很高,而且,能 使寬長尺寸及形狀依照設計之凹槽,形成在正確位置上。 如此形成之凹槽部(31)上,插入有軟管體(h)而形 成液媒流路U0 )。軟管體(Η),在本形態中如第十圖所示, 連接到設在最腳側之橫向凹槽(3丨Β )(第十圖上方)之設在 左側開放凹槽部(36)之受液口( 61)上,同時往右方延伸。 (在本說明書中,所謂左右係表示第十圖中之方向)而且, 在橫向凹槽(31Β)與右方外側之縱向凹槽(3u)的交叉部 中’彎曲而往頭側延伸’使第i個交又部往頭側延伸,在第 2個交叉部中,往左方.彎曲,使自腳側算起第3條橫向凹槽 14 1293025 (31B)往左方延伸。以下同樣地,軟管體(H),係在左方 …内側縱向凹槽(31L)與右方外側橫向凹槽(31B)間持續蛇 •订而插入凹槽部(31 ),以形成流通液媒之液媒流路(3〇 )。 而且’插入自頭侧算起第2條橫向凹槽(3丨B)之軟管體(η ), 係在與左方外側縱向凹槽(31L)之交叉部中,往腳側彎曲, 在縱向凹槽(31L)内往腳侧延伸。而且,在縱向凹槽(3il) 與自腳側算起第3條橫向凹槽(31B )之交叉部中,往左彎 曲,連接到設在該橫向凹槽(31B)左側開放凹槽部(36) 之液體回流口( 62 )。 如此一來,籍由蛇行狀插入凹槽部(31)全長局部之軟 官體Η ’形成液媒流路(3〇 )。而且,軟管體(η),係如上所 述,因為插入為了使軟塾基體(33)開放凹槽部(36)間成 直線性連續形成而高翁度加工之凹槽部,所以,被以適當支 撐力保持著。結果,床鋪之橫臥或折疊動作或使用者在軟 上運動’教墊基體( 33)即使往各種方^ 也不會脫離或位置偏移。 而且,在本形態中,如上所述,對於橫向凹槽( 3iB), 相隔一條而播入軟管體(Η ),所以,隔設有不插入軟管體η 之閒置橫向凹槽(31BF)。藉由閒置橫向凹槽(31BF),,軟 墊基體(33 )變形能办會提高,在橫臥動作之外,能很容易 地貫施折疊或收折軟墊。閒置橫向凹槽(31BF ),藉由增減 條數、凹槽深度、凹槽寬度及節距,能調節軟墊之變形能力。 軟管體( H),如第十一圖所示,通過液媒之内肖面係形 成圓形,同時,外周面係形成剖面呈略微矩形,在本形態中, 15 1293025 外周面係形成剖面呈略微正方形。軟墊體(H)外周面呈略 铽矩形,所以,如第十三圖所示,即使縱向凹槽(31L )與 核向凹槽(31B )交又部被彎曲,能防止彎曲部内侧產生中 間k細,因此,液媒之流動阻力不會增加,能維持順暢的流 動。而且,藉由軟管體(H)平坦上表面,使用者體壓會被 刀政支撐所以,能獲得很好的睡眠舒適感。又,軟管體(Η ) 内周面形成圓形’所以,能使液媒高效率地回流,同時,能 抑制髒污附著在液媒流路(30)内。 本形態之教管體(Η),如第十一圖所示,在外周侧 續形成鰭片體(F)。藉由鰭片體(F),軟管體(Η)在彎由 ’Ρ之弓曲剛性會提咼而維持曲率半徑,所以,能確保液媒7: 動性,又’即使因橫臥動作等而軟墊基體㈠W變形時 (H) 係例示外寬尺寸χ,高度γ皆為13歸之物件。 本形態之橫向凹槽(31B),如第十一圖所示,兑下t # ^ £ Q # tb ± ^ ^ ^ t ^ p ^ ^ A , w , ^ ^ ; ^ ^ ^ # ^ ^ t ^ ^ ^ ^ 〇 ^ ^ + ^ 0 } ^ ^ Α 4 官體(Η)之自然狀態橫向凹槽(31Β ),係以中心線表系。1293025 • Nine, invention description·· 【Technical field of invention】 'The invention belongs to the technical field of liquid medium temperature regulator, especially a temperature regulating cushion device which can adjust the temperature of the cushion on the bed and Its liquid medium thermostat. [Prior Art] In order to obtain comfortable sleep, in addition to using air conditioners to adjust the temperature of the bedroom, maintaining the bedding at an appropriate temperature is also an important factor. In view of this, some people use (four) and electric blankets (four) warm appliances to warm the bedding; however, in addition to warming up in the winter, moderately cooling the bedding in the summer, the pain of removing the heat from hard to sleep is gradually being valued, for example, Japanese special Kaiping HU" ; Bulletin 'Importing the cold and warm air blown out by the air-conditioning equipment into the lower part of the bed; however, 'in this type of device using cold and warm air, because the air heat capacity is small, it takes a long time to adjust to the proper temperature, and Produces wind cuts and micro-vibrations, and has problems that hinder sleep. The liquid medium heated by the electric heating pipe (1) in the water tank (a) is circulated from the circulation pump (d) disposed inside the water tank (a) through the supply pipe (e); in the summer, by a heat pump (i) including a cooler (f), a compressor (), and an evaporator (h) inserted into the supply pipe (e), so that the liquid medium flowing in the supply pipe (e) absorbs heat and cools the cushion The temperature-regulating cushion device is, for example, a new utility model registered in the Gazette No. 30 80 0 45. However, in this kind of temperature-regulating cushion device, the circulation pump (d) is installed in the liquid medium in the water tank (a), so the maintenance of the circulation pump (4) and the repair of the 1293025 (d) are very expensive. Time, and, in order, the circulating pump wire must be arranged in the liquid medium, the water phase (a) needs to be enlarged, and a large machine is required on the bed side, and there is a problem that hinders the use; and, when the cushion is cooled, The liquid medium absorbs heat only when flowing in the cooler (f), so the heat exchange efficiency is poor, and there is a problem that the cushion cannot be sufficiently cooled; and, when the cooler (f) is maintained in order to sufficiently cool the cushion At a relatively low temperature, there is a problem of large-scale heat pumping. [Inventive content] The main object of the present invention is to provide a liquid medium thermostat which is formed by partially increasing the bottom surface of the liquid storage tank. The open recess allows the circulating pump to be housed in the recess, and the heat pump cooling pipe is disposed in the liquid storage tank as a basic arrangement, thereby improving the operation efficiency and miniaturizing the structure, and further changing the maintenance of the cycle pump or the like. Easy to adjust the temperature cushion device and its liquid Thermostats. In order to achieve the above object, the present invention provides a liquid medium temperature regulator comprising a temperature-controlled soft enthalpy filled with a liquid medium flow path for circulating liquid temperature, and a liquid medium for supplying a liquid medium to a liquid medium flow path and returning The thermostat, wherein the liquid medium thermostat is used for circulating the storage medium of the liquid medium, circulating the liquid medium between the liquid storage tank and the temperature regulating cushion, and heating the heating unit with the heating medium. The cooling mechanism of the coolant medium and the control unit including the circulation pump and the heater and the cooling device are controlled in the casing for controlling the liquid medium to the temperature control cushion, and at the same time, the liquid storage tank The bottom portion is formed by partially raising the bottom portion to form a downwardly open concave portion, and the circulation pump is housed in the concave portion. Further, the cooling mechanism uses a compressor having a compression refrigerant to liquefy the refrigerant compressed by the compressor. The machine and the heat pump of the cooling pipe that absorbs the heat of 1293025 by expanding the liquefied refrigerant are arranged, and the cooling f is disposed in the liquid storage tank. Wherein, the liquid storage tank is formed with a liquid outlet for taking out the liquid medium and a liquid liquid for discharging the liquid medium toward the groove wall of the concave portion, and (4) at least a portion of the cooling tube and the heater are disposed in the liquid storage tank and facing the concave portion In the vicinity of the tank wall and in the liquid storage tank, the condenser comprises: a coil unit, which is disposed under the liquid storage tank while circulating the refrigerant; and a cooling fan, the air-cooling coil unit is juxtaposed with the coil unit under the liquid storage tank The utility model is provided with a cooling fan in the casing, a ventilation air inlet through which the air flowing through the coil unit passes, and a ventilation exhaust port. Wherein the heater is controlled by a thermostat provided on the wall of the reservoir tank; wherein the liquid medium thermostat comprises a negative ion generator and the negative ion output terminal is arranged at the ventilation outlet. Next, a preferred embodiment will be listed, and the other purposes and effects will be further explained in conjunction with the drawings and the drawings, so that the reviewer can have a more detailed understanding of the present invention and familiarize himself with the item. The skilled artisan can only use the invention to explain the preferred embodiments, and not to limit the scope of the invention, which is based on the spirit of the invention, and is in any form of the invention. Modifications and modifications are intended to be within the scope of the invention. [Embodiment] First, an embodiment of the present invention will be described in detail with reference to the drawings. As shown in the first figure, the temperature-regulating cushion device (1) is provided with a temperature-regulating cushion (M) filled with a liquid medium flow path (30), and a liquid medium-to-liquid medium flow path (3〇) and a return flow. Liquid medium thermostat (2). 7 1293025 ... liquid medium ' is heated or cooled in the liquid medium thermostat (2), and circulated in the temperature-conditioning cushion (4) liquid medium flow path (3G), and adjusts the temperature control soft 塾 ' (4) temperature Objects. The liquid medium is a water such as tap water, a rust preventive agent, or an anticorrosive material, or a liquid such as ethylene glycol or propylene glycol. The liquid medium thermostat (2), such as the seventh unit +, the total 丄u, such as the younger brother of the seven figures, is the storage tank (7) for storing liquid medium, the circulation pump for circulating liquid medium (4), and the heating liquid medium. The heater (6), the cooling mechanism (7) of the cold medium, the control mechanism (8) and the casing (4) constitute 0 攸 Q Q 3 3 ), such as the ubi HI enough: r back - Figure, Figure 5 No, a rectangular recess (10) is formed in the upper portion. Moreover, as shown in the sixth figure, in the groove wall (3W) facing the concave portion (1〇), the (4) outlet (1) from the liquid storage tank (3) is taken out from the liquid storage tank (仏^^ # (3) ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ In the plate (43), a water level detector (59) that is suspended toward the inside of the liquid storage tank (3) is installed. Further, the liquid storage tank (3), such as the second = (2) base (45) stands ( The solid storage tank is made of a liquid storage tank (3 carbonated vinegar, polypropylene, polystyrene, metal and other materials. The figure is shown on the liquid medium temperature adjustment 46). Screws and other solids are not shown. Use unsaturated polyester plastic, poly FRP and other plastics, stainless steel, steel plate, etc. 1293025. Follow the J 帮 pump (4) to circulate the liquid medium in the reservoir (3) and adjust the temperature. The object between the cushions (Μ), in this embodiment, although the motor-integrated scroll pump is illustrated, the turbine pump, the blade pump, the plunger pump, the diaphragm pump, and the gear gang can also be used. Pu and other various pumps. Loop The pump (4), as shown in the second and fifth figures, can be housed in the recess (1) of the liquid storage tank (3), and is fixed to the gantry (46) through the metal mounting member (48). The liquid storage tank (3). And between the liquid outlet (15) facing the circulation pump (4), the piping has a liquid outlet pipe (49). Thus, the circulation pump (4) is stored in the reservoir. In addition to the tank 3), it is easy to work during maintenance and maintenance inspections. Moreover, since it is disposed outside the circulation pump (4), the 'storage tank (3) itself can be miniaturized, and because it is housed in the recessed portion (10) on the bottom surface of the liquid storage tank (3), the liquid medium is adjusted to be a vm (2) The whole can be miniaturized, for example, it can be placed in the lower part of the bed or on the side of the bed, etc. It is possible to make the place of the ' 能 能 能 ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( (3W), it will approach the liquid outlet (15), so the outlet pipe (heart), (2) will suppress the heat loss of the piping path. And 'as shown in the seventh figure' in the circulation help, (4) and liquid The medium temperature adjustment (2) reaches the liquid port (5 〇), and the pipe has a liquid supply pipe (51) for sending the liquid medium fed from the circulation pump (4). Moreover, (4) FIG. (5〇) is connected to the temperature control cushion Μ liquid receiving port by connecting the soft f (63) (61 liquid medium is sent to continue, wf, ,, I (4) (4). Similarly, at the liquid supply port (50) ) between the liquid port (52) and the liquid inlet (16) of the reservoir (3), 1293025 a tube with self-regulating cushion (Μ), the liquid returning liquid through which the liquid medium will pass (5 3 ) 'And' the liquid-facing mouth (52), The connection hose (63) is connected to the temperature-controlled soft '塾(Μ) liquid return port (62), and the liquid medium is self-regulating from the temperature-regulating cushion (μ). The heater (6), as shown in the fourth and fifth figures As shown in the figure, a watertight portion of the U-shaped heating portion (5) is attached to the tank wall (3) of the liquid storage tank (3). The heating portion (5) of this embodiment has a nickel-chromium wire inside and is mounted. The thermostat (21) of the tank wall (3W) is connected in series. In this way, the heater (6) of the present embodiment is preferably a thermostat (21) for detecting the temperature of the liquid medium in the reservoir (3). To control, so 'to keep the liquid medium at the set temperature, warm the temperature-conditioning cushion (M) to a suitable temperature. * The heating mechanism (7), as shown in the seventh figure, has a compressor (丨丨), liquefaction The liquid medium condenser (12) and the heat pipe (14) of the cooling pipe (13) are configured. The compressor (11) is a liquid medium that uses a so-called compressor to obtain a high temperature and high pressure liquid medium. The condenser (12), in the present embodiment, is an object composed of a rot and a cooling fan (18), and cools the high-temperature and high-pressure refrigerant to liquefy the snake head (17), as shown in the third figure, the package A serpentine tube containing a high temperature and high pressure refrigerant and a plurality of fins mounted on the serpentine tube are disposed inside the gantry (46) below the liquid storage tank (3). Further, the cooling fan ((8), as shown in the second figure The air medium is liquefied by lowering the temperature of the refrigerant by sending the wind to the heat sink of the coil unit (17), and the liquid medium is liquefied due to the temperature drop. Further, the cooling fan ((4) is under the liquid storage tank (3) and the coil unit ((7) By arranging in parallel, the cooling fan (18) of the present embodiment is arranged in parallel with the coil unit (丨7), so that the cooling efficiency of the condenser (12) can be improved. Moreover, the 1293025 - cooling fan (18) and the coil unit (17) are preferably placed in the reservoir (3) / below, so that the internal useless gap can be reduced, so that the liquid medium thermostat (2) / Overall miniaturization. As shown in the fourth and fifth figures, the cooling pipe (13) is spirally formed in the liquid storage tank (3), and the cooling pipe (13) of this embodiment is disposed below the heater (6). Further, the cooling pipe (13) and the heater (6) are at least partially disposed inside the liquid storage tank (3) and disposed beside the groove wall (3W) facing the concave portion. Further, the refrigerant which is liquefied and further expanded and lowered in temperature absorbs heat in the liquid storage tank (3) when passing through the cooling pipe (13), and as a result, the liquid medium is cooled. The refrigerant circulating through the cooling pipe (13) is again returned to the compressor (11) to repeat the above cycle. As a result, the cooling pipe (13) is immersed in the liquid medium in the liquid storage tank (3). Therefore, when the refrigerant circulates in the cooling pipe in the liquid storage tank, the liquid medium is sufficiently cooled. As a result, the thermal efficiency of the hot pump (14) will increase, and small objects can be used. The control mechanism (8), the instrument object, as shown in the eighth figure, includes a main control unit (8A), a force heat controller control unit (86), and a control cooling fan (18) and a compressor (11). The thermal pump control unit (8 (:) is disposed in the control box (55) shown in the third figure. Further, in the operation panel (56) connected to the main control unit (8M), the indication is included The operation state of the liquid medium temperature is led (57), and the operation input unit (58) for operating the operation opening and closing and the temperature adjustment pad M temperature setting, and the 'water level detector (59)' is as shown in the seventh figure. The measurement signal sent from the liquid medium temperature detector (6〇) and the room temperature counter (61) provided at the liquid outlet U9) is input to the main control unit (8M), and the main control unit (train) 1293025 The liquid medium temperature adjustment ▼ (2) is performed based on the operation signal requested by the media input > 咕 + 4 sent from the operation input unit (58). In addition, it is also possible to replace the liquid medium temperature detector (60) in the liquid storage tank or to provide a liquid medium temperature detector (64) in addition to the liquid medium temperature detector (6〇). The center line of the seventh figure shows). As shown in the ninth figure, when the input operation unit (58) is operated by the operation panel (56) and the start operation (70) signal is input, the circulation control unit (..., the circulation pump (4) starts to operate. (71) Further, the set temperature input from the operation input unit (58) is compared with the liquid medium temperature measured by the liquid medium temperature detector (6〇), and when the liquid medium temperature is low, the temperature is transmitted. The heater control unit (8B), the heater (6) will actuate and the temperature adjustment cushion (] will be heated (73). Conversely, when the liquid medium temperature is high, the thermal pump control unit (8C) is The hot pump (14) will act (74), and the cooling thermostat pad (. In addition, for the change of the temperature of the liquid medium and the change of the set temperature, the 阋(M) will be held at the set temperature. When the running wheel input unit (58) sends the stop signal (7 5 ), the heating and the circulating pump (4) will stop (76) ( 77 )1 and the transfer will end. Moreover, by the main control unit ( The timing function within 8M) also automatically opens and closes (78). The casing (9)' is slightly cubed as shown in the first and second figures. a box-shaped body. The casing (9) is provided with an operation panel (56) at an upper inclined portion, and is respectively formed with a ventilation suction port that is joined to the cooling fan (18) and the coil unit (17) ( 19) and ventilation exhaust port (20). Ventilation suction port (19) and ventilation exhaust port (20) are installed with various decorative materials, which will be attracted by the cooling fan (18) and air-cooled coil unit (17) 12 1293025 < Also, in the lower part of the ventilation exhaust port (2〇), there is a liquid connection port (50) and a liquid-facing port (52) connected to the connection hose (63). (9) As shown in the second figure, the lower opening is sealed by the base plate (45), thereby accommodating the liquid storage tank (3), the circulation pump (4), the cooling mechanism (7), and the like. The liquid medium thermostat (2) of the form, as shown in the second and eighth figures, has a negative ion generator (22) built therein, and constitutes a negative ion output terminal (23) of the negative ion generator (22), in this form In the middle, it is arranged in the ventilation exhaust port (2〇), and the negative ion is generated in the exhaust gas blown out by the cooling fan (18). Thus, in the liquid medium The soothing effect caused by the negative ions generated by the thermostat (2) at the same time promotes sleep, and also has curative effect. The temperature-regulating cushion (M), as shown in the tenth figure, is composed of a cushioned substrate (33>, and The hose body (1!) forming the liquid medium flow path (30) is formed. The base body (33) of the teaching pad is formed into a rectangular thick plate shape in a no-load state, and is formed on one side of the generally upwardly disposed surface. Keep the 軚 tube body (the groove part of the groove part (31 >, by the vertical direction), by the longitudinal groove (31L) and the horizontal silver groove pattern (3 2 ). Further, the soft palate base (33) is made of a sponge material, and specifically, a urea-fired foam, a polyethylene foam, or the like is used. The longitudinal grooves (31L) are two in each of the two sides of the cushion base (33), and two in the longitudinal direction of the joint head side and the foot side, and a total of four are formed. Further, the longitudinal groove (31L) is formed from the side of the head of the cushion base (3 3 ) to the side of the foot, and the upper surface of the cushion base (33) is continuously formed linearly. As a result, on both end portions of the longitudinal groove (31l), open groove portions (36) 1213 1293025 which are open to the horizontal direction are formed on both end faces, and the lateral groove (31B) is attached to the cushion base (33). ) The lateral extension, the plurality of strips are equally spaced from the side of the foot to the side of the head. Further, in the same manner as the longitudinal groove (WL), the upper surface of the cushion base (33) is linearly continuous between the both sides of the cushion base (33), and as a result, the horizontal direction is formed on both side end faces. Open open recess (36). Further, in the groove pattern (Μ) of the present embodiment, a certain area in which the lateral grooves (1) are not formed on the head side of the cushion base (33) is provided. In this way, the longitudinal groove (31L) and the lateral groove (31B)' disposed in the vertical and horizontal straight rows are in the respective bases to the open groove portions (36) which are respectively opened in the horizontal direction, in the cushion base ( 33) The surface is continuously formed linearly, so that the processing of forming a groove on the surface of the planar cushion base (33) can be easily carried out. That is, although the cushion base (33) is deformable, for example, by placing the heat lines parallel to the surface of the base of the teaching pad (33), along the groove profile, the shape of the cushion| Therefore, 'there is no need for skilled technology, high productivity, and the wide and long size and shape can be formed in the correct position according to the groove of the design. The groove portion (31) thus formed is inserted with the hose body (h) to form the liquid medium flow path U0). The hose body (Η), as shown in the tenth figure in the present embodiment, is connected to the left side open groove portion (36) which is connected to the lateral groove (3丨Β) (above the tenth figure) provided at the forefoot side. ) on the liquid receiving port ( 61 ) and extending to the right at the same time. (In the present specification, the left and right sides indicate the direction in the tenth figure) and, in the intersection of the lateral groove (31Β) and the right lateral longitudinal groove (3u), 'bend and extend toward the head side' The i-th intersection extends toward the head side, and in the second intersection, is bent to the left, so that the third lateral groove 14 1293025 (31B) extends to the left from the foot side. Similarly, the hose body (H) is inserted into the groove portion (31) between the inner longitudinal groove (31L) and the right outer lateral groove (31B) in the left side to be inserted into the groove portion (31) to form a circulation. Liquid medium flow path (3〇). Moreover, the hose body (η) inserted into the second lateral groove (3丨B) from the head side is bent in the intersection with the left outer longitudinal groove (31L), and is bent toward the foot side. The longitudinal groove (31L) extends toward the foot side. Further, in the intersection of the longitudinal groove (3il) and the third lateral groove (31B) from the side of the foot, it is bent to the left and connected to the open groove portion provided on the left side of the lateral groove (31B) ( 36) Liquid return port (62). In this way, the liquid medium flow path (3〇) is formed by the serpentine shape inserted into the full length of the groove portion (31). Further, the hose body (η) is inserted as described above in order to make the soft palate base (33) open to form a straight line between the groove portions (36) and to form a groove portion having a high degree of processing. Keep it with proper support. As a result, the bed is recumbent or folded or the user moves on the soft side. The teaching pad base (33) does not detach or shift in position even to various sides. Further, in the present embodiment, as described above, for the lateral grooves (3iB), the hose body (Η) is inserted one by one, so that the idle lateral grooves (31BF) which are not inserted into the hose body η are provided. . By the idle lateral groove (31BF), the deformation of the cushion base (33) can be improved, and the folding or folding cushion can be easily applied in addition to the recumbent motion. The idle lateral groove (31BF) can adjust the deformation ability of the cushion by increasing or decreasing the number of strips, the groove depth, the groove width and the pitch. The hose body (H), as shown in Fig. 11, is formed into a circular shape by the inner surface of the liquid medium, and the outer peripheral surface is formed into a slightly rectangular cross section. In this embodiment, the outer peripheral surface of the 15 1293025 is formed into a section. It is slightly square. The outer peripheral surface of the cushion body (H) has a slightly rectangular shape. Therefore, as shown in Fig. 13, even if the longitudinal groove (31L) and the core groove (31B) are bent and bent, the inside of the bent portion can be prevented from being generated. The middle k is fine, so the flow resistance of the liquid medium does not increase and the smooth flow can be maintained. Moreover, by flattening the upper surface of the hose body (H), the user's body pressure is supported by the knife, so that a good sleep comfort can be obtained. Further, since the inner circumferential surface of the tubular body (?) is formed in a circular shape, the liquid medium can be efficiently recirculated, and the contamination can be prevented from adhering to the liquid medium flow path (30). The teaching body (Η) of this embodiment, as shown in Fig. 11, forms a fin body (F) on the outer peripheral side. By the fin body (F), the hose body (Η) maintains the radius of curvature by bending the rigidity of the bow, so that the liquid medium 7 can be ensured to be movable, and even if it is caused by the recumbent motion When the cushion base (a) W is deformed (H), the outer width dimension χ is exemplified, and the height γ is 13 objects. The lateral groove (31B) of this form, as shown in Fig. 11, is t = ^ £ £ Q # tb ± ^ ^ ^ t ^ p ^ ^ A , w , ^ ^ ; ^ ^ ^ # ^ ^ t ^ ^ ^ ^ 〇^ ^ + ^ 0 } ^ ^ Α 4 The natural state of the body (Η) is a transverse groove (31Β), which is centerlined.
而且,相對於凹似以之開放凹槽寬度Ρ的比争p/Q J 例如u〜〇.8左右’最好係〇.2〜〇5’本形態中,開放^ 槽寬度P係4,凹槽底寬㈣12mm,比率p/ 『, 未滿〇:時’軟管體(H)很難插入,反之,當超過。:8時 保持軟官體(H)之力量會不足。又,相對於橫 — 凹槽深^之軟管體⑷高度γ之比率 16 1293025 〇. 9左右,最好係〇· 5〜〇. 75,本形態中,使橫向凹槽3ΐβ 二凹槽深度R為20mm,同時,如上所述,軟管體(η)高度γ 礞 '係13mm,所以,比率Y/R係〇· 65。當未滿〇· 3時,軟塾基 體33之損傷會過大,反之,當超過〇· 9時,保持軟管體( 之力量會不足。 而且,本形態之橫向凹槽(31B),自然狀態中之凹槽底 寬Q,係比軟管體(H)外寬尺寸X還要小,因此如第十一圖 所示,插入軟管體Η而擴大之橫向凹槽31B係形成強力夾持 軟管體Η之狀態。可是,也可以使自然狀態中之凹槽底寬q 比軟管體Η外寬尺寸X還要大些微。 本形態之縱向凹槽(31L),如第十二圖所示,係在自然 狀態中,於深凹槽寬T角凹槽(67)開口緣形成往内侧小幅 延伸之一對唇部( =(H) ’係以唇部 i舒緩地保持著,所以,在橫臥時,能在縱向凹槽(ML) 内滑動,轉果,軟塾基體(33 )能柔軟地變形。 以唇部(68)間隙樣成之開放凹槽寬3相對深凹槽寬丁 / Y率S/T,係例如〇· 1〜〇· 8左右I ^ 形態中,凹槽寬s係4mm,深凹槽寬τ係乜㈣,比率S/T係 0·3。當未滿0.1時,軟管體(H)很難插入,反之,當超過 0· 8時,在橫臥等之時,軟管體(H)容易脫離。又,角凹槽 (67)部分之深度v相對縱向凹槽(ml)全深度^之比率 ,。係例如〇· 4〜〇· 9左右,最好係〇· 6〜〇· 8,本形態中, 縱向凹槽31L全深度㈣22_,角凹槽(67)部分之深度v 17 1293025 :m所以,比率V/U係0. 73。當未滿〇· 4時,唇部(68 ) '過厚而軟管體⑴报難插入反之,當超過〇·9時,以唇部 < (68)保持軟管體(Η)之力量會不足。 而且,本形恝之縱向凹槽(31L),自然狀態中之深凹槽 j 係比車人管體Η外寬尺寸X還要小,因此如第十二圖所 2插入軟官體(Η)而擴大之角凹槽(W)係形成夾持軟 &體(Η)之狀’。可是’也可以使自然狀態中之深凹槽寬τ 比軟吕體(Η)外寬尺寸X還要大些微,使軟管體(η )之滑 動更自由。 本形態之軟墊基體(33 ),如第十四圖所示,在設置凹 槽圖案(32)之表面上,積層接著被覆薄片(66),而且, 藉由鉤扣(69)被可開閉之袋狀軟塾蓋體(65)被覆。凹槽 部(31 ),係以被覆薄片(6 6)蓋閉,所以,能防止被插入 之軟管體(Η)脫離。而且,被覆薄片(66)係使用尼龍、 聚酯、聚丙烯等,一般儀使用3〇〜1〇〇g/f 形態中,係以70 g/m2之不織布來構成 第十五圖係例示另一實施形態。本形態之教墊基體 (33),具有由以40_節距隔設之橫向凹槽(31b )、及靠左 2條而靠右1條之縱向凹槽(31L)所構成之凹槽圖案(32)。 而且軟管體(H),係在靠右縱向凹槽(31L)與靠左内側之 縱向凹槽(31L )間,跳過間置橫向凹槽(31BF )而蛇行插 入凹槽部(31),而且,一端側係在靠左外側縱向凹槽(3il) 内往腳側延伸而連接到液體回流口( 62 )。 綜上所述,我們可以理解到,本發明具有下列優點及 1293025 只用價值: 1)本發明係傕掂摄鲂、、占^^ l4t ^ _Moreover, the ratio of the groove width Ρ with respect to the concave shape is p/QJ, for example, u~〇.8 or so, 'the best system 〇.2~〇5' in this form, the opening groove width P is 4, concave The bottom of the groove is wide (four) 12mm, the ratio p / 『, when not full: when the hose body (H) is difficult to insert, and vice versa. : 8 o'clock The strength of keeping the soft body (H) will be insufficient. Moreover, the ratio of the height γ of the hose body (4) relative to the horizontal-groove depth is 16 1293025 〇. 9 or so, preferably 〇·5~〇. 75, in this embodiment, the lateral groove 3 ΐ β two groove depth R is 20 mm, and as described above, the hose body (η) height γ 礞 ' is 13 mm, so the ratio Y/R is 〇 65. When it is less than 〇·3, the damage of the soft palate base 33 will be too large. On the contrary, when it exceeds 〇·9, the strength of the hose body will be insufficient. Moreover, the lateral groove (31B) of this form, the natural state The bottom width Q of the groove is smaller than the outer width X of the hose body (H). Therefore, as shown in the eleventh figure, the lateral groove 31B which is inserted into the hose body and is enlarged forms a strong grip. The state of the hose body. However, the groove bottom width q in the natural state can be made slightly larger than the outer width X of the hose body. The longitudinal groove (31L) of this form, as shown in the twelfth figure As shown, in the natural state, the opening edge of the deep groove width T-angle groove (67) is formed to extend slightly toward the inner side of the lip (=(H)' is soothedly held by the lip i, so In the horizontal position, it can slide in the longitudinal groove (ML), and the fruit can be softly deformed. The open groove width of the lip (68) gap is 3 deep groove. Wide D / Y rate S / T, for example, 〇 · 1 ~ 〇 · 8 or so I ^ form, groove width s system 4mm, deep groove width τ system 四 (four), ratio S / T system 0 · 3. When Less than 0.1 The hose body (H) is difficult to insert, and when it exceeds 0.8, the hose body (H) is easily detached when lying down, etc. Further, the depth v of the corner groove (67) is relatively concave. The ratio of the groove (ml) to the full depth ^, for example, 〇·4~〇·9 or so, preferably 〇·6~〇·8, in this form, the longitudinal groove 31L full depth (four) 22_, angular groove (67 Partial depth v 17 1293025 : m Therefore, the ratio V / U is 0. 73. When not full 〇 · 4, the lip (68) 'is too thick and the hose body (1) is difficult to insert, and vice versa At 9 o'clock, the strength of the hose body (Η) is insufficient with the lip < (68). Moreover, the longitudinal groove (31L) of the shape is deeper than the body of the vehicle. The outer width X is smaller, so the insertion of the soft body (Η) as shown in Fig. 12 and the enlarged angle groove (W) form a shape of the soft & body (Η). It is also possible to make the deep groove width τ in the natural state slightly larger than the outer width X of the soft body, so that the sliding of the hose body (η) is more free. The cushion base (33) of this form, As shown in Figure 14, the groove is set On the surface of the case (32), the laminate is then covered with a sheet (66), and is covered by a hook-shaped soft lid body (65) by a hook (69). The groove portion (31) is covered. Since the sheet (6 6) is closed, it is possible to prevent the inserted hose body from being detached. Moreover, the coated sheet (66) is made of nylon, polyester, polypropylene, etc., and the general gauge is used for 3〇~1〇〇. In the g/f form, the fifteenth figure is exemplified by a non-woven fabric of 70 g/m2 to exemplify another embodiment. The teaching pad base (33) of the present embodiment has a lateral groove partitioned by a 40-pitch. (31b), and a groove pattern (32) formed by two longitudinal grooves (31L) on the left and two on the right. Moreover, the hose body (H) is between the right longitudinal groove (31L) and the left inner longitudinal groove (31L), skipping the intervening lateral groove (31BF) and meandering the groove portion (31) Further, one end side is extended to the foot side in the left outer longitudinal groove (3il) to be connected to the liquid return port (62). In summary, we can understand that the present invention has the following advantages and 1293025 only value: 1) The present invention is 傕掂 傕掂, 占 ^ ^ l4t ^ _
媒在循環於儲液槽内冷卻管 %床逭寻不妨礙之位置,而能方 置在儲液槽内,所以,液媒係冷 内時能充分熱交換,因此,熱幫 浦運轉效率會提高,而且也能小型化。 2) 本發明中自儲液槽到收納在儲液槽凹部之循環幫 浦,能以最短路徑來配管,所以,能使液媒調溫器整體小型 化’同時,能減少配管部熱損失。 3) 本發明藉由與蛇管單元並列之冷卻風扇,能有效率 地冷=冷凝機,而且,因為配置在儲液槽下方,所以,能減 >套喊内無用間隙’而使液媒調溫器整體小型化。 4) 本發明中槽壁恆溫器直接檢知液媒溫度而控制加熱 器,所以,能溫暖調溫軟墊到適溫。 ,)本發明中在自通風排氣口吹出之空氣中會產生負離 子,所以,能達到睡眠中之政鬆效果或具有療效。 6)本發明中循環幫浦係配置在儲液槽外,所以,保養 作業變得容易,而且儲液槽本身也能小型化。而且,因為收 納在儲液槽凹部,液媒調溫器整體能小型化,而且設置在不 妨礙之位置而能方便使用。又,冷媒在循環於儲液槽内冷卻 管内時,液媒被充分冷卻,所以,能提高熱幫浦運轉效率而 19 1293025 • 可以達成小型化。The medium circulates in the position where the cooling tube % of the cooling tube is not obstructed, and the energy can be placed in the liquid storage tank. Therefore, the liquid medium can be fully exchanged when it is cold, so the heat pump operation efficiency will be Improve, but also can be miniaturized. 2) In the present invention, the circulation pump from the liquid storage tank to the recessed portion of the liquid storage tank can be piped in the shortest path, so that the liquid medium temperature controller can be miniaturized as a whole, and the heat loss of the piping portion can be reduced. 3) The present invention can efficiently cool the condensing machine by the cooling fan juxtaposed with the coil unit, and, because it is disposed under the liquid storage tank, it can reduce the useless liquid in the squirrel The overall temperature of the heater is miniaturized. 4) In the present invention, the tank wall thermostat directly detects the temperature of the liquid medium and controls the heater, so that the temperature can be warmed to a suitable temperature. ,) In the present invention, a negative ion is generated in the air blown out from the ventilating exhaust port, so that the political loosening effect or the therapeutic effect can be achieved in sleep. 6) In the present invention, the circulation pump system is disposed outside the liquid storage tank, so maintenance work becomes easy, and the liquid storage tank itself can be miniaturized. Further, since it is accommodated in the recess of the liquid storage tank, the liquid medium temperature controller can be miniaturized as a whole, and can be conveniently placed at a position where it is not obstructed. Further, when the refrigerant circulates in the cooling pipe in the liquid storage tank, the liquid medium is sufficiently cooled, so that the heat pump operation efficiency can be improved. 19 1293025 • The size can be reduced.
X ' 以上說明係例示本發明之實施形態。因此,本發明之技 ♦術性範圍並不侷限於上述實施形態,在上述實施形態之外, 也包含各種變形例。 【圖式簡單說明】 第圖係本發明調溫軟墊裝置實施形態之立體外觀圖。 第一圖係本發明液媒調溫器内部之側視圖。 第二圖係第二圖相反側之侧視圖。 第四圖係第二圖重要部分分解立體圖。 第五圖係第四圖X-X剖面圖。 第六圖係第五圖Y — Y剖面圖。 第七圖係本發明調溫軟墊裝置配管狀態之系統圖。 第八圖係本發明說明調溫教墊裝置控制機構之系統圖。 第九圖係本發明說明調溫軟墊裝置動作之流程圖。 第十圖係本發明調溫軟墊之俯視亂 第十一圖係第十圖 A-A 剖面圖 > 第十二圖係第十圖B-B剖面圖。 第十二圖係第十圖重要部位放大圖。 第十四圖係第十圖之分解立體圖。 第十五圖係本發明調溫軟墊另一實施形態之俯視圖。 第十六圖係習用之立體分解圖。 第十七圖係第十六圖之縱剖面圖。 【主要元件符號說明】 (1)調溫軟塾裝詈 20 1293025 (2 )液媒調溫器 :(3 )儲液槽 • ( 4 )循環幫浦 (5 )加溫部 (6 )加熱器 (7 )冷卻機構 (8 )控制機構 (8M)主控制部 (8B)加熱器控制部 (9)套殼 (10 )凹部 (1 2 )液化液媒之冷凝機 (14)熱幫浦 (1 6 )入口 (18 )冷卻風扇 (20)通風排氣口 (22 )負離子產生器 (30 )液媒流路 (31L)縱向凹槽 (31BF)閒置橫向凹槽 (33)軟墊基體 (41 )突出部 (43)蓋板 (45)基盤 (8A)循環幫浦控制部 (8C )熱幫浦控制部 (11 )壓縮機 (13 )冷卻管 (15)出口 (17)蛇管單元 (1 9 )通風吸氣口 (21 )恆溫器 (23)負離子輸出端子 (31 )凹槽部 (31B)橫向凹槽 (32)凹槽圖案 (36 )開放凹槽部 (42)顎部 (44 )螺絲 (46)架台 1293025 (48)安裝件 ;(5 0 )送液口 ’(52 )迎液口 (55)控制箱 (57)顯示 LED (59)水位偵知器 (61 )室溫偵知|§ (63)軟管 (6 6 )薄片 (68 )唇部 (4 9 )出液管 (51)送液管 (53)回流管 (5 6 )操作面板 (58 )運轉輸入部 (60 ) ( 64 )液媒溫度偵知器 (6 2 )回流口 (65)軟墊蓋體 (67 )角凹槽 (6 9 )鉤扣 (70)操作面板運轉開始 (71 )循環幫浦開始 (72) 設定溫度與液媒比較 (73) 加熱器開始 (74) 熱幫浦開始 (75) 是否繼續運轉 (76 )加熱器與熱幫浦關閉 (77) 循環幫浦關閉 (78) 運轉停止 (Η)軟管體 (F )鰭片體 (Μ )調溫軟墊 (3W)槽壁 22X' The above description illustrates an embodiment of the present invention. Therefore, the technical scope of the present invention is not limited to the above embodiment, and various modifications are also included in addition to the above embodiment. BRIEF DESCRIPTION OF THE DRAWINGS The drawings are perspective views of embodiments of the temperature-regulating cushion device of the present invention. The first figure is a side view of the interior of the liquid medium thermostat of the present invention. The second drawing is a side view of the opposite side of the second figure. The fourth figure is an exploded perspective view of the important part of the second figure. The fifth figure is a cross-sectional view of the fourth figure X-X. The sixth figure is a cross-sectional view of the Y-Y of the fifth figure. Figure 7 is a system diagram showing the piping state of the temperature-regulating cushion device of the present invention. The eighth figure is a system diagram illustrating the control mechanism of the temperature-regulating teaching pad device. The ninth figure is a flow chart illustrating the action of the temperature-regulating cushion device. The tenth figure is a top view of the temperature control cushion of the present invention. The eleventh figure is the tenth figure A-A sectional view > The twelfth figure is the tenth drawing B-B sectional view. The twelfth figure is an enlarged view of the important part of the tenth figure. The fourteenth figure is an exploded perspective view of the tenth figure. Fig. 15 is a plan view showing another embodiment of the temperature-regulating cushion of the present invention. The sixteenth figure is a stereoscopic exploded view of the conventional use. Figure 17 is a longitudinal sectional view of the sixteenth figure. [Main component symbol description] (1) Temperature control soft mounting device 20 1293025 (2) Liquid medium thermostat: (3) Storage tank • (4) Cyclic pump (5) Heating unit (6) heater (7) Cooling mechanism (8) Control mechanism (8M) Main control unit (8B) Heater control unit (9) Case (10) Recess (1 2) Condensing machine for liquefied liquid medium (14) Thermal pump (1) 6) inlet (18) cooling fan (20) ventilation exhaust port (22) negative ion generator (30) liquid medium flow path (31L) longitudinal groove (31BF) idle lateral groove (33) cushion base (41) Projection (43) cover plate (45) base plate (8A) circulation pump control unit (8C) thermal pump control unit (11) compressor (13) cooling tube (15) outlet (17) coil unit (1 9) Ventilation suction port (21) thermostat (23) negative ion output terminal (31) groove portion (31B) lateral groove (32) groove pattern (36) open groove portion (42) crotch portion (44) screw ( 46) Stand 1293025 (48) Mounting parts; (5 0) Liquid supply port '(52) Liquid-facing port (55) Control box (57) Display LED (59) Water level detector (61) Room temperature detection | (63) Hose (6 6 ) Sheet (68) Lip (4 9 ) Outlet tube (51) Liquid supply tube (53) Return tube (5 6 ) Operation panel (58) Operation and loss Inlet (60) (64) Liquid medium temperature detector (6 2 ) Return port (65) Padded cover (67) Angle groove (6 9 ) Hook (70) Operation panel operation start (71) Cycle help Pu start (72) Set temperature to liquid medium comparison (73) Heater start (74) Heat pump start (75) Continue to run (76) Heater and hot pump off (77) Cycle pump off (78) Operation stop (Η) hose body (F) fin body (Μ) temperature control cushion (3W) groove wall 22