五、新型說明: 【新型所屬之技術領域】 更詳而言之,係關於 本創作係有關於一種測溫裝置 可重複使用之測溫裝置。 【先前技術】 般大眾對於無法有效得知容器内之液體溫度是爷V. New description: [New technical field] In more detail, this series is about a reusable temperature measuring device for temperature measuring devices. [Prior Art] The general public is unable to effectively know the temperature of the liquid in the container.
=低而_困擾°例如’沖泡牛奶給嬰幼兒飲用時,吳 適溫的牛奶,—般會以手或直接㈣體置人”浪 武。然而’該等測試方式於液體溫度過高時錢傷之虞, t不合乎術生。此外’由於環境溫度差異及個人感覺等因 t該等賴方式易產生誤差,而縛嬰戟健康。因此 絲及安全及提供使較利性,遂有多種如感溫奶瓶等之 測溫顯示裝置產品問世。 β習用之測溫顯示震置係於,諸如:奶瓶,等容器之内 :设置水銀或酒精溫度計’以供溫度測量。但容器與溫度 之接觸面不易清洗’ ^造成污㈣積;且水銀或酒精等 溫度計易因外力撞擊破裂,導致飲用料甚吸人酒精或水 鈒:而危害個體之健康。因此,台灣公告帛i 93867號專利 揭不-種城溫控閥,其係於奶瓶上設置有外孔蓋及内孔 蓋,並利W溫彈簧,將其鉤裝於該奶瓶外孔蓋及内孔蓋, 以控制奶瓶中牛奶的流出。但上述感溫彈簧須長期浸泡於 =奶:、’容易產生生鏽之問題,且該彈簧不易取出清洗, =易藏污納垢,因而對個體健康產生威脅。另,台灣公告 第207104號專利提出一種新型奶觀,包括設置有開孔之奶 M376758 瓶,及安裝有控制電路之感測器。該感測器具有探測棒, 其係利用該探測棒由該奶瓶之開孔插入瓶中,以進行溫度 量測。但該感測器必須配合特殊設計之奶瓶才能發揮效 用,且該奶瓶結構裝置極為複雜,因此,其成本較高、不 符經濟考量,又不符合環保要求。 再者,台灣公告第573538號專利則提出一種奶瓶測 溫顯示裝置,其係將一具有感溫變色染料的包覆體與一底 色部環接後,以熱熔方式熔合黏接在奶瓶瓶體上。當牛奶 溫度為適溫時,感溫變色染料與底色部顏色相同,不會改 變顏色;而當牛奶於非適溫時,感溫變色染料會改變顏色 而與底色部產生色差。然而,該測溫顯示裝置僅根據感溫 變色染料與底色部之顏色差異進行判讀,且不同顏色又具 不同意義,因此容易判讀錯誤,且判斷效率不彰。此外, 該裝置係以熱熔方式固著於奶瓶瓶體上,因此,該裝置易 於奶瓶清洗時毁損,因而失去轉變顏色的功能,此將造成 錯誤判讀,而影響飲用安全。同時,固著於奶瓶的裝置將 會隨著奶瓶的更換而丟棄,因而對於使用者而言,實不符 合經濟考量。 繼而,台灣公告第456246號專利提出一適溫顯示之 奶瓶,其係將感溫變色染料塗佈於一膠質圓片,並將該圓 片以環繞瓶身的方式套設於奶瓶上。然而,該裝置僅根據 染料之顏色進行判讀,且不同顏色又具不同意義,因此, 在判讀上仍不便,尤其精神不濟者或年長者,易發生錯誤 的判讀,影響幼兒安全。例如,深夜起身時,睡眼惺忪不 M376758 易集中精神,或夜間光線昏暗等狀況,將造成使用者無法 立即並正確依感溫變色染料顯現的顏色判斷出所代表之涵 義。此外,該圓片需環繞套設於瓶身周圍,不但須耗用較 多的構成材料,且將受限於容器的形狀與尺寸,意即,需 針對不同尺寸、外形之容器而有特殊設計。故該裝置仍無 '法解決使用不便的問題。 因此,提供一種符合安全、經濟、容易辨識等要求, 以讓使用者能立即並正確判讀溫度範圍之測溫裝置,仍為 β本領域急待解決的問題。 【新型内容】 鑒於上述習知技術之缺點,本創作係提供一種測溫裝 置,以符合產業利用性及使用便利性的需求,該測溫裝置 係包括可重複使用之本體以及具有標識之感溫元件.。該感 溫元件係設置於該可重複使用之本體上,且該感溫元件包 括基層及感溫變色層。其中,該感溫變色層之顏色於預設 φ 溫度範圍之外改變,以顯示該標識,以及,該可重複使用 •之本體包括靜電膜。 在本創作的一態樣中,該標識係位於該基層,且該感 溫變色層係覆蓋於該基層上,該感溫變色層之顏色於預設 溫度範圍之外即變為透明色,用以顯示該標識。在本創作 的另一態樣中,該標識係位於該感溫變色層,且該感溫變 色層係覆蓋於該基層上,位於該感溫變色層之該標識的顏 色於預設溫度範圍之外改變,以顯示出該標識。此外,在 本創作一具體實施例中,該感溫變色層具可逆感溫變色材 5 M376758 料。在本創作另一具體實施例中,該感溫元件係以印刷方 式設置於該可重複使用之本體上。 本創作復提供一種測溫裝置,其係包括可重複使用之 本體以及具有標識之感溫元件。該感溫元件係設置於該可 重複使用之本體上,且該感溫元件包括基層及感溫變色 層。其中,該感溫變色層之顏色於預設溫度範圍之外改變, 以顯示該標識,以及,該可重複使用之本體係具有可重複 黏貼型膠層。 在本創作的一態樣中,該標識係位於該基層,且該感 温變色層係覆蓋於該基層上,該感溫變色層之顏色於預設 溫度範圍之外即變為透明色,用以顯示該標識。在本創作 的另一態樣中,該標識係位於該感溫變色層,且該感溫變 色層係覆蓋於該基層上,位於該感溫變色層之該標識的顏 色於預設溫度範圍之外改變,以顯示出該標識。此外,在 本創作一具體實施例中,該感溫變色層具可逆感溫變色材 料。在本創作另一具體實施例中,該感溫元件係以印刷方 式設置於該可重複使用之本體上。於本創作又一具體實施 例中,該可重複使用之本體的材質之例子包括塑膠、軟質 橡膠及/或纖維材質。 本創作可提供安全、經濟、無殘色、顯色清楚、顯色 快速之測溫裝置,以供使用者能立即判別物件之溫度範 圍,並且,該測溫裝置具有可重複使用的便利性。 【實施方式】 以下.係藉由特定的具體實例說明本創作之測溫裝置 /3¾ 只%方式,熟悉此技藝之人士可由本說明書所揭示之内容 幸二易地瞭解本創作之其他優點與功效。本創作亦可藉由其 他不同的具體實例加以施行或應用,本說明書中的各項細 節亦可基於不同觀點與應用,在不悖離本創作之精神下進 行各種修飾與變更。 清芩閱第1A及1B圖,其係分別例示本創作之測溫 f置的可重複使用之本體。如第1A圖所示,本創作之測 溫裝置包括可重複使用之本體u,該可重複使用之本體n 係為靜電膜,俾透過靜電膜之特性使其可重複於物件上貼 附或取下。 此外’如第1B圖所示,於另一具體實施例中,本創 作之測溫裝置包括具有可重複黏貼型膠層15的可重複使 用之本體11’,俾透過該可重複黏貼型膠層15,以實現可 重複於物件上軸或取下的功能。於—具體例巾,該可重 複使用之本體11,的材質可為塑膠、軟f橡夥及/或纖維 質。 可重複使用之本體U或u,可具有防水性。此外,該 可重複使用之本體11或U,可重複貼附於物件上,該物件 例如,但不限於:容器(如,茶杯、飲料杯、飲料瓶、奶 觀等杯瓶類餐具(如,銷具、碗具等)及玩具等。並 且,該物件可為’例如,但不限於:陶究、玻璃、金屬、 塑膠等材貝所製成。藉*可重複使用之本體,使得測溫裝 置能重複應用於物件上,例如’可重複自物件上貼附或取 下。因此,該測溫裝置不需隨物件廢棄而丟棄,而得以重 IVIJ / 〇 / 複使用,以提供使用便利性。同時,該測溫裝置得於進a 物件π π %取下,並於完成清潔後重新貼附於該物件, 此可避免對測溫裝置的破壞,以提供安全性及便利性 外,透過該可重複使用之本體11《η,,測溫裝置之使用 不會受限於物件之外型或尺寸。 惟應了解’可重複使用之本體的樣式,只要能達到本 創作之功效’秘於圖式所㈣者;同理,可重複黏貼型 膠層之設置形式及位置,亦不限於圖式所例示者。 接著%參閱第2至第7圖,其係例示說明本創作之 測溫裝置的實施例。以下實施例皆係以靜電膜製成的可重 複使用之本體U (如第1Α圖所示)來例示,然應了解, 本創作之測溫裝置也可使用具有可重複黏貼型膠層Μ的 可重複使用之本體11’(如第1Β圖所示),且該可重複使 用之本體11’的材質可為塑膠、軟質橡膠及/或纖維材質。 請參閱第2圖’其係本創作之測溫裝置的第一實施例 之結構示意圖。如圖所示,測溫裝置丨係包含:可重複使 用之本體11及具有標識21的感溫元件12。該測溫裝置j 可透過該可重複使用之本體11,而重複貼附於物件7或自 物件7取下。 感溫元件12包括基層2及感溫變色層3,且該感溫元 件12係設置於該可重複使用之本體η上。於本實施例中, 該標識21係位於該基層2。如圖所示,測溫裝置1係在可 重複使用之本體11上設置基層2,且基層2具有標識21。 接者’將感溫變色層3設置於該可重複使用之本體】1,使 M376758 該感溫變色層3與該基層2重疊以覆蓋該基層2。該感溫 變色層3具可逆感溫變色材料,當感溫變色層3感測該物 件7的溫度於預設溫度範圍之外時,其顏色將隨之改變, 藉以顯示出該標識21。若感溫變色層3感測該物件7的溫 度於預設溫度範圍之内時,則立即變回原來的顏色,以遮 • 蔽位於基層2的標識21。藉此,該測溫裝置1可供使用者 以目視即可立即、清楚得知物件7之溫度係落於預設溫度 -範圍之外或預設溫度範圍内。 ^ 應了解,該預設溫度範圍可視使用需求而定。此外, 感溫元件12之基層2與感溫變色層3可直接印刷至該可重 複使用之本體11上。再者,基層2及感溫變色層3可以不 同之圖案、樣式表現,藉以加強美觀效果。而該標識21 亦可為文字、數字、圖案或各種樣式,以滿足使用者的需 求及/或達到美觀之目的。 請參閱第3A至3B圖,其係例示說明本創作之測溫 φ 裝置第一實施例之使用狀態的一具體實施例。如圖所示, -測溫裝置1係貼附於物件7。於一具體實施例中,當該物 件7内盛有液體時,物件7可反映該液體的溫度,在此具 體實施例中,調整物件7内盛裝之液體的溫度相當於調整 物件7的溫度。 測溫裝置1的可重複使用之本體Π上,係設置有感 溫元件12,其包括基層2及感溫變色層3,且該基層2具 有標識21。當物件7的溫度於預設溫度範圍内時,感溫變 色層3係覆蓋並遮蔽基層2上的標識21(如第3A圖所示, 9 M376758 感溫變色層3係呈現得以遮蔽基層2之標識21的顏色,而 使該標識21無法顯示);當物件7之溫度於預設溫度範圍 之外時,感溫變色層3的顏色隨之改變,以顯示出位於基 層2之標識21 (如第3B圖所示),藉此,使用者可透過目 測該顯示出之標識21,而立即得知物件7之溫度係於預設 溫度範圍之外。 於一具體實施例中,當物件7的溫度於預設溫度範圍 内時,感溫變色層3係呈現得以遮蔽基層2之標識21的顏 色,例如,紅色,藉以覆蓋並遮蔽基層2上的標識21 (如 第3A圖所示)。當物件7之溫度於預設溫度範圍之外時, 感溫變色層3之顏色由紅色變為,例如,透明色,以顯示 出位於基層2之標識21,例如,“非適溫’’(如第3B圖所示, 圖中係以格子樣式之消失例示說明感溫變色層3之顏色 由,例如,紅色變為透明色)。藉此,使用者可透過目測該 顯示出之標識21,而立即得知物件7之溫度係落於預設溫 度範圍之外。若將物件7之溫度調適至預設溫度範圍内, 則該感溫變色層3便由,例如,透明色變回紅色(如第3 A 圖所示,圖中係以格子樣式之呈現例示說明感溫變色層3 係呈現,例如,紅色),藉以覆蓋並遮蔽位於基層2之標識 21,以供使用者得知物件7之溫度係於預設溫度範圍内。 接著,請參閱第4圖,其係本創作之測溫裝置第二實 施例之結構示意圖。本實施例中之測溫裝置1與第一實施 例大致相同,主要差異在於:標識41係位於該感溫變色層 M376758 如圖所示,測溫裝置1係包含:可重複使用之本體11 及具有標識41的感溫元件12。該測溫裝置1可透過該可 重複使用之本體11,而重複貼附於物件7或自物件7取下。 感溫元件12係包括感溫變色層4及基層5,且該感溫 元件12係設置於該可重複使用之本體11上。於本實施例 中,該標識41係位於該感溫變色層4。如圖所示,測溫裝 置1係於可重複使用之本體11上設置基層5,而具有標識 41的感溫變色層4則與該基層5重疊。該感溫變色層4具 可逆感溫變色材料,當位於該感溫變色層4之標識41感測 該物件7的溫度係落於預設溫度範圍之外時,其顏色即改 變,以顯示出該標識41。若位於該感溫變色層4之標識41 感測該物件7的溫度係落於預設溫度範圍之内時,則立即 變回原來的顏色,此時,該標識41便無法顯示出來。藉此, 該測溫裝置1可供使用者目視即可立即、清楚得知物件7 之溫度係落於預設溫度範圍之外或預設溫度範圍内。 應了解,該預設溫度範圍可視使用需求而定。此外, 感溫元件12之感溫變色層4及基層5可直接印刷至該可重 複使用之本體11上。再者,感溫變色層4及基層5可以不 同之圖案、樣式表現,藉以加強美觀效果。而該標識41 亦可為文字、數字、圖案或各種樣式,以滿足使用者的需 求及/或達到美觀之目的。 請參閱第5A至5C圖,其係例示說明本創作之測溫 裝置的第二實施例之使用狀態的一具體實施例。如圖所 示,測溫裝置1係貼附於物件7。於一具體實施例中,當 11 M376758 該物件7内盛有液體時,物件7可反映該液體的溫度,在 此具體實施例中,調整物件7内盛裝之液體的溫度相當於 調整物件7的溫度。 測溫裝置1的可重複使用之本體11上,係設置有感 溫元件12,其包括感溫變色層4及基層5,且該感溫變色 層4具有標識41,且標識41為可逆感溫變色材料。當物 件7的溫度落於預設範圍之内時,感溫變色層4的標識 41 ’並不會顯示出來(如第5 A圖所示);當物件7之溫 度落於預設溫度範圍之外時,位於該感溫變色層4之標識 41的顏色,會隨之改變,以顯示出該感溫變色層4之標識 41,藉此,使用者可透過目測該顯示出之標識41,而立即、 清楚得知物件7之溫度係落於預設溫度範圍之外。 於一具體實施例中,當物件7的溫度落於預設範圍之 内時,感溫變色層4的標識41 (例如,透明色)並不會顯 示出來(如第5A圖所示)。當物件7之溫度落於預設溫 度範圍之外時,位於該感溫變色層4之標識41的顏色會 由,例如,透明色’轉變成,例如,藍色,以顯示出該感 溫變色層4之標識41,例如,“非適溫、如第5B圖所示, 該感溫變色層4之標識41 “非適溫,,的顏色,因容器7的溫 度改變而由,例如,透明色,改變為,例如,藍色,而得 以顯現。藉此,使用者可透過目測該顯示出之標識41,而 立即、清楚得知物件7之溫度係落於預設溫度範圍之外。 若將物件7之溫度調適至預設溫度範圍内,則該感溫變色 層4之標識41將變回,例如,透明色,而無法顯不出來(如 12 M376758 第5A圖所示)。也就是說,該感溫變色層4之標識41“非 適溫”的顏色,因容器7的溫度改變成落於預設溫度範圍之 内,使其顏色變回原來的透明色,而無法顯示,因此使用 者便可據此得知物件7之溫度係落於預設溫度範圍内。 可結合運用本創作之測溫裝置的第一、二實施例。請 參閱第6圖,其係本創作之測溫裝置第三實施例之結構示 意圖。 如圖所示,測溫裝置1係包含:可重複使用之本體 鲁11,以及,具有標識21的感溫元件12a、具有標識41的 感溫元件12b。該測溫裝置1可透過該可重複使用之本體 11,而重複貼附於物件7或自物件7取下。 感溫元件12a及12b係設置於該可重複使用之本體11 上。感溫元件12a包括基層2及感溫變色層3,而該標識 21係位於該基層2。感溫元件12b則包括感溫變色層4及 基層5,該標識41係位於該感溫變色層4。如圖所示,測 籲溫裝置1係在可重複使用之本體11上設置具有標識21的 •基層2,並將感溫變色層3設置於該可重複使用之本體11, 使該感溫變色層3與該基層2重疊以覆蓋該基層2。該感 溫變色層3具可逆感溫變色材料,當感溫變色層3感測該 物件7的溫度係落於預設溫度範圍之外時,其顏色將隨之 改變,藉以顯示出該標識21。若感溫變色層3感測該物件 7的溫度係落於預設溫度範圍之内時,則立即變回原來的 顏色,以遮蔽位於基層2的標識21。此外,測溫裝置1亦 於可重複使用之本體11上設置基層5,而具有標識41的 13 M376758 感溫變色層4則與該基層5重疊。該感溫變色層4具可逆 感溫變色材料,當位於該感溫變色層4之標識41感測該物 件7的溫度係落於預設溫度範圍之外時,其顏色即改變, 以顯示出該標識41。若位於該感溫變色層4之標識41感 測該物件7的溫度係落於預設溫度範圍之内時,則立即變 回原來的顏色,此時,該標識41便無法顯示出來。藉由感 潘元件12a及12b,該測溫裝置1可供使用者以目視即可 立即、清楚得知物件7之溫度係落於預設溫度範圍之外或 預設溫度範圍内。 應了解,該預設溫度範圍可視使用需求而定。感溫元 件12a之基層2及感溫變色層3,以及,感溫元件12b之 感溫變色層4及基層5 ’可直接印刷至該„可重複使用之本 體11上。再者’基層2、感溫變色層3、感溫變色層4及 基層5’可以不同之圖案、樣式表現’藉以加強美觀效果。 而該標識21、41亦可為文字、數字、圖案或各種樣式,以 滿足使用者的需求及/或達到美觀之目的。此外,本創作之 測溫裝置的第一、二實施例的組合及應用方式可視使用需 求調整’並不以此處(本實施例)所例示說明者為限。 請參閱第7A至7C圖,其係例示說明本創作之測溫 裝置的第三實施例之使用狀態的一具體實施例,該具體實 施例係例示,本創作之測溫裝置可藉由感溫元件12a及 12b ’供使用者以目視即可立即、清楚得知物件之溫度係高 於預設溫度範圍、低於預設溫度範圍或是落於預設溫度範 園内。 14 M376758 如圖所示,測溫裝置1係貼附於物件7。於一具體實 施例中,當該物件7内盛有液體時,物件7可反映該液體 的溫度,在此具體實施例中,調整物件7内盛裝之液體的 溫度相當於調整物件7的溫度。 測溫裝置1的可重複使用之本體11上,係設置有感 溫元件12a,其包括基層2及感溫變色層3,且該基層2 具有標識21 ;並且,設置有感溫元件i2b,其包括感溫變 鲁色層4及基層5’且該感溫變色層4具有標識41,標識41 為可逆感溫變色材料。當物件7的溫度係落於預設範圍之 内時’感溫變色層3係覆蓋並遮蔽基層2上的標識21 ;並 且感溫變色層4之標識41,於此時並不會顯示出來(如第 7A圖所示)。當物件7之溫度高於預設溫度範圍時,感溫 變色層3的顏色隨之改變,以顯示出位於基層2之標識 21;而該感溫變色層4之標識41則仍無法顯示出來。藉此, 使用者可透過目測該顯示出之標識21,而立即得知物件7 • 之溫度係高於預設溫度範圍(如第7B圖所示)。接著, •請參閱第7C圖,當物件7之溫度低於預設溫度範圍時, 感溫變色層3的顏色會呈現得以遮蔽基層2之標識21的顏 色,使該標識21無法顯示;而位於該感溫變色層4之標識 41的顏色則產生改變,以顯示出該感溫變色層4之標識 41,藉此,使用者可透過目測該顯示出之標識41,而立即、 清楚得知物件7之溫度係低於預設溫度範圍。 於一具體實施例中’當物件7之溫度高於預設溫度範 圍時,該感溫變色層3之顏色隨即改變,例如,由紅色改 15 M376758 變為透明色,以顯示出位於基層2之標識21,例如,“熱”(如 第7B圖所示,該圖係以格子樣式之消失,例示說明感溫 變色層3之顏色由,例如,紅色變為透明色),藉此,使用 者可透過目測該顯示出之標識21,而立即得知物件7之溫 度係高於預設溫度範圍。而此時,該感溫變色層4之標識 41則呈現,例如,透明色,而無法顯示出來。 然而,若將物件7之溫度調適至預設溫度範圍内,則 該感溫變色層3便由透明色變回紅色(如第7 A圖所示,該 圖係以格子樣式之呈現,例示說明感溫變色層3係呈現, 例如,紅色),藉以覆蓋並遮蔽位於基層2之標識21 ;且 此時,該感溫變色層4之標識41仍呈現,例如,透明色, 而無法顯示出來。因此,使用者可得知物件7之溫度係落 於預設溫度範圍内。 再者,當物件7的溫度低於預設溫度範圍時,位於該 感溫變色層4之標識41的顏色,會由,例如,原來的透明 色轉變成藍色,以顯示出該感溫變色層4之標識41,例如, “冷”。如第7C圖所示,該感溫變色層4之標識41 “冷”的 顏色,因容器7的溫度改變,由例如,原來的透明色轉變 為藍色,而得以顯現。藉此,使用者可透過目測該顯示出 之標識41,而立即、清楚得知物件7之溫度係低於預設溫 度範圍。而此時,感溫變色層3則呈現紅色,以遮蔽基層 2之標識21。 然而,若將物件7之溫度調適至預設溫度範圍内,則 該感溫變色層4之標識41“冷”,將由藍色變回原來的透明 16 MJ/6758 色,而無法顯示出來(如第7A圖所示);且此時,感溫變色 層3 ’亦呈現得以遮蔽基層2之標識21的紅色。因此,使 用者可得知物件7之溫度係落於預設溫度範圍内。 應了解,感溫元件12a及12b的組合及應用方式可視 使用需求調整,並不以上述例示說明者為限。 本創作之測溫裝置係藉由感溫變色層之顏色變化,以 顯不或遮蔽感溫元件之標識,俾供使用者目測後即可得知 ⑩測溫裝置所貼附之物件的溫度是否落於預設溫度範圍内。 本創作之測溫裝置結構簡單,操作方便,透過本創作之測 溫裝置,使用者不須以手或口進行溫度感測,符合衛生條 件。同時,本創作之測溫裝置,藉由可重複使用之本體:、 以使該測溫裳置能重複應用於物件上。 另外,應了解,本創作之感測裝置中各元件之顏色, 及感溫元件與物件溫度間之反應、顏色的改變,係可因應 實際需求而加以選擇變化,只要能達到本創作之功效,= φ 限於圖式所例示者。 上述實施例僅例示性說明本創作之原理及其功效,而 非用於限制本創作◎任何熟習此項技藝之人士均可在不違 背本創作之精神及範疇下,對上述實施例進行修飾與= 變。因此,本創作之權利保護範圍,應如後述之申請專 範圍所列。 【圖式簡單說明】 第1A及1B圖係分別例示本創作之測溫裝置的可重 複使用之本體; 17 M376758 第2圖係本創作之測溫裝置的第一實施例之結構示意 圖, 第3A及3B圖係例示本創作之測溫裝置的第—實施 例之使用狀態示意圖; 第4圖係本創作之測溫裝置的第二實施例之結構示咅 圖, 第5A及5B圖係例示本創作之測溫裝置的第二實施 例之使用狀態示意圖; 第6圖係本創作之測溫裝置的第三實施例之結構示意 圖;以及 第7A至7C圖係例示本創作之測溫裝置的第三實施 例之使用狀態示意圖。 【主要元件符號說明】 1 測溫裝置 11、 11’ 可重複使用之本體 12、 12a、12b感溫元件 15 可重複黏貼型膠層 2、 5 基層 21、41 標識 3、 4 感溫變色層 7 物件 18= low and _ troubled ° For example, 'when brewing milk for infants and young children, Wu Shiwen's milk, as usual, will be placed by hand or directly (four) body." However, the test method is when the liquid temperature is too high. After that, t is not suitable for the students. In addition, due to the difference in ambient temperature and personal feelings, it is easy to produce errors due to the method of t, and the baby is healthy. Therefore, silk and safety and provision are more advantageous. The temperature measurement display device such as temperature-sensitive bottle is available. The temperature measurement display of the conventional temperature is used in the container, such as: bottle, etc.: set mercury or alcohol thermometer for temperature measurement. But the contact surface of the container and temperature It is not easy to clean '^causes pollution (4) product; and thermometers such as mercury or alcohol are easily broken by external force, which causes the drinking materials to attract people's alcohol or water sputum: it is harmful to the health of the individual. Therefore, Taiwan's announcement 帛i 93867 patent is not disclosed - The city temperature control valve is provided with an outer hole cover and an inner hole cover on the bottle, and a W warm spring is hooked on the outer hole cover and the inner hole cover of the bottle to control the outflow of milk in the bottle. But the above temperature bomb Long-term immersion in = milk:, 'prone to rust, and the spring is not easy to remove and clean, = easy to hide dirt, thus posing a threat to individual health. In addition, Taiwan Bulletin No. 207104 proposes a new type of milk view The utility model comprises a milk M376758 bottle provided with an opening, and a sensor equipped with a control circuit. The sensor has a detecting rod, and the probe is inserted into the bottle from the opening of the bottle for temperature measurement. However, the sensor must be combined with a specially designed bottle to be effective, and the bottle structure device is extremely complicated, so its cost is high, it is not economical, and it does not meet environmental protection requirements. Furthermore, Taiwan Announcement No. 573538 A bottle temperature measuring device is proposed, which comprises a coating body with a thermochromic dye ring and a bottom color portion, and then fuses and adheres to the bottle body by hot melt. When the milk temperature is suitable for temperature When the thermochromic dye has the same color as the background color, it does not change the color; when the milk is not suitable for temperature, the thermochromic dye changes color and produces a color difference from the background portion. The temperature measuring display device only interprets the color difference between the thermochromic dye and the ground color portion, and the different colors have different meanings, so the reading error is easy, and the judgment efficiency is not good. Moreover, the device is hot melted. It is fixed on the bottle body. Therefore, the device is easy to be damaged when the bottle is cleaned, thus losing the function of changing color, which will cause misinterpretation and affect the safety of drinking. At the same time, the device fixed to the bottle will follow the bottle. It is not economical for the user to replace it. Therefore, Taiwan Patent No. 456246 proposes a temperature-sensitive bottle that applies a thermochromic dye to a gel disc and The wafer is placed around the bottle in a manner around the bottle. However, the device is only interpreted according to the color of the dye, and the different colors have different meanings. Therefore, it is still inconvenient in interpretation, especially those who are mentally unfit or elderly. It is prone to wrong interpretation and affects the safety of young children. For example, when you get up late at night, sleepy eyes are not M376758 easy to concentrate, or nighttime dim light, etc., will cause the user to immediately and correctly determine the meaning of the color of the thermochromic dye. In addition, the wafer needs to be wrapped around the bottle body, which not only consumes more constituent materials, but also is limited by the shape and size of the container, that is, it needs special design for containers of different sizes and shapes. . Therefore, the device still has no problem to solve the problem of inconvenience. Therefore, it is still an urgent problem to be solved in the field to provide a temperature measuring device that meets the requirements of safety, economy, and easy identification so that the user can immediately and correctly interpret the temperature range. [New content] In view of the above-mentioned shortcomings of the prior art, the present invention provides a temperature measuring device to meet the needs of industrial utilization and convenience of use, the temperature measuring device includes a reusable body and a temperature sensing with a logo. element.. The temperature sensing element is disposed on the reusable body, and the temperature sensing element comprises a base layer and a thermochromic layer. Wherein, the color of the thermochromic layer is changed outside the preset φ temperature range to display the mark, and the reusable body comprises an electrostatic film. In one aspect of the present invention, the logo is located on the base layer, and the thermochromic layer covers the base layer, and the color of the thermochromic layer changes to a transparent color outside the preset temperature range. To display the logo. In another aspect of the present invention, the logo is located on the thermochromic layer, and the thermochromic layer covers the base layer, and the color of the logo located in the thermochromic layer is within a preset temperature range. Change externally to show the identity. In addition, in a specific embodiment of the present invention, the thermochromic layer has a reversible thermochromic material 5 M376758. In another embodiment of the present invention, the temperature sensing element is disposed on the reusable body in a printed manner. The present invention provides a temperature measuring device that includes a reusable body and a temperature sensing element having an identification. The temperature sensing element is disposed on the reusable body, and the temperature sensing element comprises a base layer and a thermochromic layer. Wherein, the color of the thermochromic layer is changed outside the preset temperature range to display the logo, and the reusable system has a re-stickable adhesive layer. In one aspect of the present invention, the logo is located on the base layer, and the thermochromic layer covers the base layer, and the color of the thermochromic layer changes to a transparent color outside the preset temperature range. To display the logo. In another aspect of the present invention, the logo is located on the thermochromic layer, and the thermochromic layer covers the base layer, and the color of the logo located in the thermochromic layer is within a preset temperature range. Change externally to show the identity. Further, in a specific embodiment of the present invention, the thermochromic layer has a reversible thermochromic material. In another embodiment of the present invention, the temperature sensing element is disposed on the reusable body in a printed manner. In another embodiment of the present invention, examples of the material of the reusable body include plastic, soft rubber, and/or fiber materials. This creation provides a temperature-sensing device that is safe, economical, has no residual color, clear color, and fast color development, so that the user can immediately determine the temperature range of the object, and the temperature measuring device has reusability. [Embodiment] The following is a specific example to illustrate the temperature measuring device of the present invention. The person familiar with the art can understand the other advantages and effects of the present invention by the contents disclosed in the present specification. The present invention may also be implemented or applied by other specific examples. The details of the present specification can also be modified and changed without departing from the spirit of the present invention. Please refer to Figures 1A and 1B, which respectively illustrate the reusable body of the temperature measurement f of the present creation. As shown in FIG. 1A, the temperature measuring device of the present invention includes a reusable body u, and the reusable body n is an electrostatic film, and the characteristics of the electrostatic film are allowed to be repeatedly attached or taken on the object. under. In addition, as shown in FIG. 1B, in another embodiment, the temperature measuring device of the present invention comprises a reusable body 11' having a re-adhesive adhesive layer 15 through which the re-adhesive adhesive layer is applied. 15, to achieve the function of repeating the axis or removal of the object. In the specific case, the reusable body 11 may be made of plastic, soft f-cotton and/or fiber. The reusable body U or u can be waterproof. In addition, the reusable body 11 or U may be repeatedly attached to the article, such as, but not limited to, a container (eg, a cup, a drink cup, a beverage bottle, a milk bottle, etc.). Pins, bowls, etc.), toys, etc. Moreover, the object can be made of, for example, but not limited to: ceramics, glass, metal, plastic, etc. The device can be repeatedly applied to objects, such as 'repeatable or removed from the object. Therefore, the temperature measuring device does not need to be discarded as the object is discarded, and can be reused for IVIJ / 〇 / reuse to provide ease of use. At the same time, the temperature measuring device is removed from the object π π % and reattached to the object after cleaning, thereby avoiding damage to the temperature measuring device to provide safety and convenience. The reusable body 11 "η, the use of the temperature measuring device is not limited by the shape or size of the object. Only the 'reusable body style can be achieved, as long as the effect of the creation can be achieved' In the case of (4); the same reason, The arrangement and position of the re-stickable adhesive layer are not limited to those illustrated in the drawings. Next, refer to Figures 2 to 7, which illustrate an embodiment of the temperature measuring device of the present invention. The reusable body U made of an electrostatic film (as shown in Fig. 1) is exemplified, but it should be understood that the temperature measuring device of the present invention can also use a reusable body with a re-stickable adhesive layer. 11' (as shown in Figure 1), and the reusable body 11' can be made of plastic, soft rubber and/or fiber. Please refer to Figure 2 for the temperature measuring device of the present invention. A schematic structural view of an embodiment. As shown, the temperature measuring device includes: a reusable body 11 and a temperature sensing element 12 having a mark 21. The temperature measuring device j can pass through the reusable body 11 And repeatedly attached to the object 7 or removed from the object 7. The temperature sensing element 12 includes a base layer 2 and a thermochromic layer 3, and the temperature sensing element 12 is disposed on the reusable body η. The identifier 21 is located at the base layer 2. The temperature measuring device 1 is provided with a base layer 2 on the reusable body 11, and the base layer 2 has a mark 21. The connector 'sets the thermochromic layer 3 on the reusable body 1', so that the temperature is M376758 The color changing layer 3 overlaps the base layer 2 to cover the base layer 2. The thermochromic layer 3 has a reversible thermochromic material, and when the thermochromic layer 3 senses that the temperature of the object 7 is outside a preset temperature range, The color will change accordingly, thereby displaying the mark 21. If the thermochromic layer 3 senses that the temperature of the object 7 is within the preset temperature range, it immediately changes back to the original color to cover the base layer 2 The identifier 21 can be used, and the temperature measuring device 1 can be used by the user to immediately and clearly know that the temperature of the object 7 falls outside the preset temperature range or within the preset temperature range. This preset temperature range can be determined by the usage requirements. Further, the base layer 2 and the thermochromic layer 3 of the temperature sensing element 12 can be directly printed onto the reusable body 11. Furthermore, the base layer 2 and the thermochromic layer 3 can be expressed in different patterns and patterns to enhance the aesthetic effect. The logo 21 can also be text, numbers, patterns or various styles to meet the needs of the user and/or to achieve aesthetics. Referring to Figures 3A through 3B, a specific embodiment of the state of use of the first embodiment of the temperature measuring device of the present invention is illustrated. As shown, the temperature measuring device 1 is attached to the article 7. In a specific embodiment, when the object 7 contains liquid, the object 7 can reflect the temperature of the liquid. In this embodiment, the temperature of the liquid contained in the adjustment member 7 is equivalent to the temperature of the adjustment member 7. The reusable body of the temperature measuring device 1 is provided with a temperature sensing element 12 comprising a base layer 2 and a thermochromic layer 3, and the base layer 2 has a mark 21. When the temperature of the object 7 is within the preset temperature range, the thermochromic layer 3 covers and shields the mark 21 on the base layer 2 (as shown in FIG. 3A, the 9 M376758 thermochromic layer 3 is formed to shield the base layer 2) Marking the color of 21 so that the mark 21 cannot be displayed); when the temperature of the object 7 is outside the preset temperature range, the color of the thermochromic layer 3 is changed to show the mark 21 located at the base layer 2 (eg As shown in FIG. 3B, the user can immediately know that the temperature of the object 7 is outside the preset temperature range by visually detecting the displayed mark 21. In a specific embodiment, when the temperature of the object 7 is within a preset temperature range, the thermochromic layer 3 exhibits a color that shields the identifier 21 of the base layer 2, for example, red, thereby covering and shielding the logo on the base layer 2. 21 (as shown in Figure 3A). When the temperature of the object 7 is outside the preset temperature range, the color of the thermochromic layer 3 is changed from red to, for example, a transparent color to indicate the mark 21 located on the base layer 2, for example, "non-applied temperature"' ( As shown in FIG. 3B, the color of the thermochromic layer 3 is exemplified by the disappearance of the lattice pattern, for example, the red color is changed to a transparent color. Thereby, the user can visually check the displayed mark 21, It is immediately known that the temperature of the object 7 falls outside the preset temperature range. If the temperature of the object 7 is adjusted to a preset temperature range, the thermochromic layer 3 changes from, for example, a transparent color back to red ( As shown in FIG. 3A, the figure is illustrated in a lattice pattern to illustrate that the thermochromic layer 3 is present, for example, red), thereby covering and obscuring the mark 21 located on the base layer 2 for the user to know the object 7 The temperature is within a preset temperature range. Next, please refer to Fig. 4, which is a schematic structural view of a second embodiment of the temperature measuring device of the present invention. The temperature measuring device 1 in this embodiment is substantially the same as the first embodiment. The main difference is that the logo 41 is located Thermochromic layer M376758 As shown, the temperature measuring device 1 comprises: a reusable body 11 and a temperature sensing element 12 having a marking 41. The temperature measuring device 1 can be repeated through the reusable body 11 Attached to the object 7 or removed from the object 7. The temperature sensing element 12 includes a thermochromic layer 4 and a base layer 5, and the temperature sensing element 12 is disposed on the reusable body 11. In this embodiment The marker 41 is located in the thermochromic layer 4. As shown, the temperature measuring device 1 is provided with a base layer 5 on the reusable body 11, and the thermochromic layer 4 having the marker 41 is associated with the substrate 5 The thermochromic layer 4 has a reversible thermochromic material. When the identifier 41 located in the thermochromic layer 4 senses that the temperature of the object 7 falls outside the preset temperature range, the color changes. The identifier 41 is displayed. If the identifier 41 located in the thermochromic layer 4 senses that the temperature of the object 7 falls within the preset temperature range, the original color is immediately changed. At this time, the identifier 41 is displayed. Cannot be displayed. Thereby, the temperature measuring device 1 can be visually recognized by the user. That is, it is clear that the temperature of the object 7 falls outside the preset temperature range or within the preset temperature range. It should be understood that the preset temperature range may be determined according to the use requirements. In addition, the thermochromic layer of the temperature sensing element 12 4 and the base layer 5 can be directly printed onto the reusable body 11. Further, the thermochromic layer 4 and the base layer 5 can be expressed in different patterns and styles, thereby enhancing the aesthetic effect. The logo 41 can also be text, Numbers, patterns or various styles to meet the needs of the user and/or to achieve aesthetics. Please refer to Figures 5A to 5C, which illustrate a specific state of use of the second embodiment of the temperature measuring device of the present invention. Embodiments. As shown, the temperature measuring device 1 is attached to the object 7. In a specific embodiment, when the object 7 contains liquid in the 11 M376758, the object 7 can reflect the temperature of the liquid, here specifically In the embodiment, the temperature of the liquid contained in the adjustment article 7 is equivalent to the temperature of the adjustment article 7. The reusable body 11 of the temperature measuring device 1 is provided with a temperature sensing element 12 including a thermochromic layer 4 and a base layer 5, and the thermochromic layer 4 has a mark 41, and the mark 41 is a reversible temperature change. Color changing material. When the temperature of the object 7 falls within the preset range, the mark 41' of the thermochromic layer 4 is not displayed (as shown in FIG. 5A); when the temperature of the object 7 falls within the preset temperature range When it is outside, the color of the logo 41 located in the thermochromic layer 4 will change accordingly to display the logo 41 of the thermochromic layer 4, whereby the user can visually display the displayed logo 41. Immediately and clearly know that the temperature of the object 7 falls outside the preset temperature range. In one embodiment, when the temperature of the article 7 falls within a predetermined range, the logo 41 (e.g., transparent color) of the thermochromic layer 4 is not displayed (as shown in Fig. 5A). When the temperature of the object 7 falls outside the preset temperature range, the color of the mark 41 located in the thermochromic layer 4 may be converted into, for example, a blue color by, for example, a transparent color to indicate the temperature change. The mark 41 of the layer 4, for example, "non-appropriate temperature, as shown in Fig. 5B, the mark 41 of the thermochromic layer 4 is "non-appropriate," and the color is changed by, for example, the temperature of the container 7. Color, changed to, for example, blue, to be revealed. Thereby, the user can visually and visually know that the temperature of the object 7 falls outside the preset temperature range by visually detecting the displayed mark 41. If the temperature of the object 7 is adjusted to within the preset temperature range, the logo 41 of the thermochromic layer 4 will change back, for example, to a transparent color, which cannot be revealed (as shown in Fig. 5A of 12 M376758). That is to say, the color of the symbol 41 of the thermochromic layer 4 is "non-optimal", and the temperature of the container 7 changes to fall within the preset temperature range, so that the color changes back to the original transparent color, and cannot be displayed. Therefore, the user can know that the temperature of the object 7 falls within the preset temperature range. The first and second embodiments of the temperature measuring device of the present invention can be used in combination. Please refer to Fig. 6, which is a schematic view showing the structure of the third embodiment of the temperature measuring device of the present invention. As shown in the figure, the temperature measuring device 1 includes a reusable body 11 and a temperature sensing element 12a having a mark 21 and a temperature sensing element 12b having a mark 41. The temperature measuring device 1 can be repeatedly attached to or removed from the object 7 through the reusable body 11. The temperature sensing elements 12a and 12b are disposed on the reusable body 11. The temperature sensing element 12a includes a base layer 2 and a thermochromic layer 3, and the marking 21 is located in the base layer 2. The temperature sensing element 12b includes a thermochromic layer 4 and a base layer 5, and the marker 41 is located on the thermochromic layer 4. As shown in the figure, the temperature sensing device 1 is provided with a base layer 2 having a mark 21 on a reusable body 11, and a thermochromic layer 3 is disposed on the reusable body 11 to discolor the temperature. Layer 3 overlaps the base layer 2 to cover the base layer 2. The thermochromic layer 3 has a reversible thermochromic material. When the thermochromic layer 3 senses that the temperature of the object 7 falls outside the preset temperature range, the color thereof will change accordingly, thereby displaying the logo 21 . If the thermochromic layer 3 senses that the temperature of the object 7 falls within the preset temperature range, it immediately changes back to the original color to shield the mark 21 located on the base layer 2. Further, the temperature measuring device 1 is also provided with a base layer 5 on the reusable body 11, and the 13 M376758 thermochromic layer 4 having the mark 41 is overlapped with the base layer 5. The thermochromic layer 4 has a reversible thermochromic material. When the identifier 41 located in the thermochromic layer 4 senses that the temperature of the object 7 falls outside the preset temperature range, the color changes to display The logo 41. If the mark 41 located in the thermochromic layer 4 senses that the temperature of the object 7 falls within the preset temperature range, it immediately changes back to the original color, and at this time, the mark 41 cannot be displayed. By means of the sensing elements 12a and 12b, the temperature measuring device 1 allows the user to visually and clearly know that the temperature of the object 7 falls outside the preset temperature range or within the preset temperature range. It should be understood that the preset temperature range may depend on the usage requirements. The base layer 2 and the thermochromic layer 3 of the temperature sensing element 12a, and the thermochromic layer 4 and the base layer 5' of the temperature sensing element 12b can be directly printed onto the "reusable body 11." The thermochromic layer 3, the thermochromic layer 4 and the base layer 5' can be expressed in different patterns and patterns to enhance the aesthetic effect. The logos 21 and 41 can also be text, numbers, patterns or various styles to satisfy the user. The requirements and/or the purpose of achieving aesthetics. In addition, the combination and application mode of the first and second embodiments of the temperature measuring device of the present invention can be adjusted according to the use requirement, and is not illustrated by the example (this embodiment). Please refer to FIGS. 7A to 7C for illustrating a specific embodiment of the use state of the third embodiment of the temperature measuring device of the present invention. The specific embodiment is illustrative of the temperature measuring device of the present invention. The temperature sensing elements 12a and 12b' allow the user to immediately and clearly visually know that the temperature of the object is higher than the preset temperature range, lower than the preset temperature range, or fall within the preset temperature range. 14 M376758 Shown The device 1 is attached to the article 7. In one embodiment, when the article 7 contains liquid, the article 7 can reflect the temperature of the liquid. In this embodiment, the liquid contained in the article 7 is adjusted. The temperature is equivalent to the temperature of the adjustment object 7. The reusable body 11 of the temperature measuring device 1 is provided with a temperature sensing element 12a comprising a base layer 2 and a thermochromic layer 3, and the base layer 2 has a mark 21; a temperature sensing element i2b is provided, which includes a temperature sensitive layer 4 and a base layer 5', and the thermochromic layer 4 has a mark 41, and the mark 41 is a reversible thermochromic material. When the temperature of the object 7 falls on the When the range is within the range, the thermochromic layer 3 covers and shields the mark 21 on the base layer 2; and the mark 41 of the thermochromic layer 4 is not displayed at this time (as shown in Fig. 7A). When the temperature of the object 7 is higher than the preset temperature range, the color of the thermochromic layer 3 is changed to show the mark 21 located on the base layer 2; and the mark 41 of the thermochromic layer 4 is still not displayed. Therefore, the user can immediately obtain the identification 21 by visual inspection. Object 7 • The temperature is higher than the preset temperature range (as shown in Figure 7B). Next, • Refer to Figure 7C, when the temperature of the object 7 is lower than the preset temperature range, the color of the thermochromic layer 3 The color of the logo 21 of the base layer 2 is displayed so that the logo 21 cannot be displayed; and the color of the logo 41 located in the thermochromic layer 4 is changed to display the logo 41 of the thermochromic layer 4, Therefore, the user can immediately and clearly know that the temperature of the object 7 is lower than the preset temperature range by visually detecting the displayed mark 41. In a specific embodiment, when the temperature of the object 7 is higher than the preset temperature range At this time, the color of the thermochromic layer 3 changes, for example, from red to 15 M376758 to a transparent color to show the mark 21 at the base layer 2, for example, "hot" (as shown in Fig. 7B, the figure By disappearing the lattice pattern, the color of the thermochromic layer 3 is exemplified by, for example, red to a transparent color, whereby the user can immediately know the temperature of the object 7 by visually detecting the displayed mark 21. The system is above the preset temperature range. At this time, the logo 41 of the thermochromic layer 4 exhibits, for example, a transparent color and cannot be displayed. However, if the temperature of the object 7 is adjusted to a preset temperature range, the thermochromic layer 3 changes from a transparent color to a red color (as shown in FIG. 7A, the figure is presented in a lattice pattern, an illustration The thermochromic layer 3 is present, for example, red, to cover and mask the indicia 21 located on the base layer 2; and at this time, the indicia 41 of the thermochromic layer 4 still appears, for example, a transparent color, and cannot be displayed. Therefore, the user can know that the temperature of the object 7 falls within the preset temperature range. Moreover, when the temperature of the object 7 is lower than the preset temperature range, the color of the mark 41 located in the thermochromic layer 4 may be changed from, for example, the original transparent color to blue to show the temperature change. The identifier 41 of layer 4, for example, "cold". As shown in Fig. 7C, the color of the "cold" mark 41 of the thermochromic layer 4 is revealed by the change of the temperature of the container 7 from, for example, the original transparent color to blue. Thereby, the user can immediately and clearly know that the temperature of the object 7 is lower than the preset temperature range by visually detecting the displayed mark 41. At this time, the thermochromic layer 3 is colored red to shield the mark 21 of the base layer 2. However, if the temperature of the object 7 is adjusted to a preset temperature range, the sign 41 of the thermochromic layer 4 is "cold" and will change from blue to the original transparent 16 MJ/6758 color, and cannot be displayed (eg 7A); and at this time, the thermochromic layer 3' also exhibits a red color that shields the mark 21 of the base layer 2. Therefore, the user can know that the temperature of the object 7 falls within the preset temperature range. It should be understood that the combination and application of the temperature sensing elements 12a and 12b can be adjusted according to the needs of use, and is not limited to the above description. The temperature measuring device of the present invention notifies or obscures the identification of the temperature sensing element by the color change of the thermochromic layer, and can be used for visual inspection by the user to know whether the temperature of the object attached to the 10 temperature measuring device is Fall within the preset temperature range. The temperature measuring device of the present invention has a simple structure and convenient operation. Through the temperature measuring device of the present invention, the user does not need to perform temperature sensing by hand or mouth, and the sanitary condition is met. At the same time, the temperature measuring device of the present invention is used by the reusable body: so that the temperature measuring device can be repeatedly applied to the object. In addition, it should be understood that the color of each component in the sensing device of the present invention, and the reaction between the temperature sensing component and the temperature of the object, and the change of color can be selected and changed according to actual needs, as long as the effect of the creation can be achieved. = φ is limited to those illustrated in the drawing. The above embodiments are merely illustrative of the principles of the present invention and its effects, and are not intended to limit the present invention. Any person skilled in the art can modify the above embodiments without departing from the spirit and scope of the present invention. = change. Therefore, the scope of protection of this creation should be as listed in the application scope described later. BRIEF DESCRIPTION OF THE DRAWINGS FIGS. 1A and 1B are diagrams respectively illustrating a reusable body of the temperature measuring device of the present invention; 17 M376758 Fig. 2 is a schematic structural view of a first embodiment of the temperature measuring device of the present invention, 3A And FIG. 3B is a schematic view showing the state of use of the first embodiment of the temperature measuring device of the present invention; FIG. 4 is a structural diagram of the second embodiment of the temperature measuring device of the present invention, and FIGS. 5A and 5B are examples of the present invention. A schematic diagram of the state of use of the second embodiment of the temperature measuring device; FIG. 6 is a schematic structural view of a third embodiment of the temperature measuring device of the present invention; and FIGS. 7A to 7C are diagrams illustrating the temperature measuring device of the present invention. A schematic diagram of the state of use of the three embodiments. [Main component symbol description] 1 Temperature measuring device 11, 11' Reusable body 12, 12a, 12b Temperature sensing element 15 Repeatable adhesive layer 2, 5 Base layer 21, 41 Identification 3, 4 Thermochromic layer 7 Object 18