100年03月22日 五、新型說明: 【新型所屬之技術領域】 [0001] [0002] [0003] [0004] 本創作係有關一種熱流傳導應用,特別是關於—種 結合均溫板,不需藉由電能即可使熱能有效储存並加以 利用之容器保溫裝置。 【先前技術】 目則一般之保溫杯或保溫壺,其係大多是氣密結構 ,其構造稍嫌複雜、且重量較重;或是必須裝設電池或 插電,藉由電能轉換成熱能供應保溫溫度,達到保溫效 果,綜觀上述設計仍有諸多不便,仍有改進的空間。 均溫板(Vapor Chamber)為一種短、小、輕、薄、 熱導速率快之一種被動式散熱元件,它藉由於真空腔室 内之熱超導介質的蒸發,將熱能快速均勻散佈到低溫處 冷凝,再由腔室内之毛細結構回流至熱源,以幾近超音 波速度做動中重複蒸發/冷凝的動作’把大量的熱能在 極短的時間内排除。均溫板是最可靠無耗能的被動式微 冷卻裝置,其不必維修、堅固耐用、可塑性大,並可因 客戶需求製成不同尺寸、形狀提供各需求使用,具有極 優異之熱傳導性,將在短期内完全取代傳統散熱元件, 在往後成為散熱元件的主流》 但,均溫板除了一般所熟之的優異熱傳導性外,其 係更是具有儲熱的功能,換言之,其係可保持並儲存熱 能於其内部,若,能將該儲熱功能結合一般生活用品加 以結合運用’如保溫杯等,更是能成為一項新穎便利的 表單煸號Α0101 第3頁/共11頁 M403278 100年03月22日修正替换頁 產品。 [0005] 故,有鑑於此,本創作人潛心研究,並結合從事相 關事業之多年經驗,針對上述之問題,提出一種容器保 溫裝置,得以改善習知相關缺點。 【新型内容】 [0006]100年年月22日五, New Description: [New Technology Field] [0001] [0002] [0003] [0004] This creation is related to a heat flow conduction application, especially regarding a kind of combined temperature equalization plate, A container insulation device that utilizes electrical energy to efficiently store and utilize thermal energy. [Prior Art] The general insulation cups or thermal insulation pots are mostly airtight structures, which are slightly complicated in structure and heavy in weight. They must be equipped with batteries or plugged in, and converted into heat energy by electric energy. Insulation temperature, to achieve insulation effect, there are still many inconveniences in the above design, there is still room for improvement. The Vapor Chamber is a kind of passive heat dissipating component which is short, small, light, thin and fast in thermal conductivity. It is quickly and evenly distributed to the low temperature by the evaporation of the hot superconducting medium in the vacuum chamber. Then, the capillary structure in the chamber is returned to the heat source, and the evaporation/condensation action is repeated in the near-ultrasonic speed to remove a large amount of heat energy in a very short time. The temperature equalizing plate is the most reliable and energy-saving passive micro-cooling device. It is maintenance-free, durable, and plastic. It can be used in different sizes and shapes according to customer requirements. It has excellent thermal conductivity and will be used in In the short term, it completely replaces the traditional heat dissipating components, and becomes the mainstream of the heat dissipating components in the future. However, in addition to the excellent thermal conductivity that is generally cooked, the temperature equalizing plate has a function of storing heat, in other words, it can maintain and The heat is stored in the interior. If the heat storage function can be combined with general household items, such as a thermos cup, it can be a novel and convenient form. Α0101 Page 3 of 11 M403278 100 years Corrected the replacement page product on March 22nd. [0005] Therefore, in view of this, the creator has devoted himself to research and combined with years of experience in related businesses to propose a container heat-insulating device to improve the related disadvantages. [New content] [0006]
本創作所要解決的技術問題是克服現有傳統的保溫 杯或保溫壺的相關缺失,希藉此本創作一種結合均溫板 ,不需藉由電能即可使熱能有效儲存並加以利用的容器 保溫裝置。 [0007] 本創作之主要目的, 具有一均溫板,可將一盛裝i 儲存並持續保持熱平衡,The technical problem to be solved by this creation is to overcome the related defects of the existing traditional heat preservation cups or heat preservation pots, and to create a container heat preservation device which combines the temperature equalization plates and can effectively store and utilize the heat energy without using electric energy. . [0007] The main purpose of this creation is to have a temperature equalizing plate that can store a garment and maintain a thermal balance.
养溫裝置, 熱能有效 [0008] 本創作之另一目的,係在提供一種盡器保溫裝置, 構造簡單且攜帶方便,不需額外择供,力即可具有保溫 ^ '· . .< · 〇 f ' Ϊ 效果,具有環保節能之優點。: ‘ [0009]Temperature-increasing device, heat energy is effective [0008] Another purpose of this creation is to provide a heat-insulating device, which is simple in structure and convenient to carry, and can be insulated without additional supply. ^·· . . . 〇f ' Ϊ effect, with the advantages of environmental protection and energy saving. : ‘ [0009]
為達上述創作之目的,本創作所運用之技術手段為 一種容器保溫裝置,包括一容器可容置高溫液體,容器 底面具有一高導熱面,容器可為茶杯或茶壺造型或平底 容器或器皿類之容器,容器具有一上蓋,可蓋覆於容器 上,防止熱能散逸;以及一均溫板,均溫板一表面與容 器之高導熱面緊密接觸,藉由熱傳導將容器所散發之熱 能保存,均溫板内部具有毛細結構及工作流體,均溫板 為銅材質,毛細結構為金屬粉末燒結柱體,毛細結構為 金屬粉末喷塗薄膜,工作流體為純水或超純水。 表單編號A0101 第4頁/共11頁 [0010] 100年03月22日倐正替換頁 [0011] [0012] [0013] 茲為使貴審查委員對本創作之結構特徵及所達成 之功效更有進一步之瞭解與認識,謹佐以較佳之實施例 及配合詳細之說明,說明如後: 【實施方式】 本創作之實施手段、特點及其功效,可由以下詳細 實施說明輔以附圖而獲進一步之了解。 首先,請同時參照第1圖所示本創作之結構前視圖, 如圖所示,本創作為一容器保溫裝置10,包括一容器20 ,容器20可容置高溫液體,容器20底面具有一高導熱面 21,高導熱面21可為金屬面或為陶瓷面,該容器20可為 茶杯或茶壺造型或平底容器或器皿類之容器,本案實施 例中容器20為一具有上蓋22之茶杯造型,上蓋22可蓋覆 於容器20上,進一步可防止熱能散逸;以及一均溫板30 ,均溫板30—表面與容器20之高導熱面21緊密接觸,當 容器20盛裝高溫液體時,可藉由熱傳導將容器20所散發 之熱能保存。 第2圖為本創作之立體分解圖,藉由此圖可更清楚觀 察本創作之内部結構,如圖所示,均溫板30為熱導性佳 之銅材質,其中,均溫板30内部具有以金屬粉末燒結而 成之金屬粉末燒結柱體及利用金屬粉末喷塗於均溫板30 内壁而形成之金屬薄膜,將此金屬粉末薄膜及金屬粉末 燒結柱體成為毛細結構31並注入工作流體32,即可藉由 該毛細結構31來配合工作流體32的受熱快速蒸發、冷凝 ,達到儲熱及快速熱傳之功效。 表單編號A0101 第5頁/共11頁 [0014] [0014] 100年03月22日 接續,金屬粉末燒結枉體及金屬薄骐所述之金属粉 末係採用導熱性佳的銅粉為實施例’而工作流體32為純 水或超純水’工作流體32係填注於均溫板3〇内部,經由 相變化傳輸熱能,工作流體3 2為一種熱傳媒界,遇熱產 生相變化,而容器2 0之兩導熱面21係與均溫板3 〇之一表 面接觸,容器20並具有上蓋22。為更清楚觀察本創作之 内部結構’將其沿Α ~· A做剖視圖,在以下做說明。 [0015] 第3圖為第2圖之剖視圖,藉由A_A位置可更清楚觀察 本創作之内部結構’如圖所示,容器別盛裝之高溫液體 ,藉由底部之高導熱面21,傳遞至均溫抵3〇上,由於均 溫板3。為銅材質’其熱傳鬌溫板3〇接 觸熱源端為蒸發端300,另,當蒸 發端300之工作流體32因吸熱蒸發成汽,態蒸汽3,蒸汽沒蒸 散並迅速擴散至整個冷凝端301冷凝,均溫板3〇内之 毛細結搆31田流至蒸發端見。,:良由冷綠端3()1無法將 熱能排除,《氣a及工作以:3存^^板3()内擔環, 並漸漸與容器20内之高溫液體達到^半衝,使熱量保存 ’進而達到熱平衡之保溫效果。 刚 本創作之容器保溫裝置1Q H可㈣ 之容器2G及-均溫板3G,藉由熱傳導將容器则之高溫 液體所散發之熱m由糾溫板3G㈣具有毛細結 構31及X作流體32,工作流體32受熱後蒸發成蒸氣,會 於均溫板3G内部循環,進而與高溫液體達到熱平衡,具 有儲熱保溫之效果。本創作相較於傳統之氣密式或需要 插電之保溫裝置’構造簡單且使时便,更是環保節能 表單编號A0101 第6頁/共11頁 M403278 100年03月22日俊正替换頁 [0017] 惟以上所述者,僅為本創作之較佳實施例而已,其 目的在使熟習該項技藝者能夠瞭解本創作之内容而據以 實施,並非用來限定本創作實施之範圍;故舉凡依本創 作申請專利範圍所述之形狀、構造、特徵及精神所為之 均等變化與修飾,均應涵蓋在本創作之申請專利範圍内 〇 【圖式簡單說明】 [0018] 第1圖為本創作之結構前視圖。 [0019] 第2圖為本創作之立體分解圖。 [0020] 第3圖為第2圖於A-A位置之剖視圖。 【主要元件符號說明】 [0021] 容器保溫裝置.10 [0022] 容器.2 0 [0023] 高導熱面.21 [0024] 上蓋.2 2 [0025] 均溫板.3 0 [0026] 蒸發端.30 0 [0027] 冷凝端.301 [0028] 毛細結構.31 [0029] 工作流體.32 表單编號A0101 第7頁/共11頁For the purpose of the above creation, the technical means used in the creation is a container insulation device, which comprises a container for accommodating high temperature liquid, the bottom surface of the container has a high heat transfer surface, and the container can be a tea cup or teapot shape or a flat bottom container or vessel. a container having an upper cover covering the container to prevent heat dissipation; and a temperature equalizing plate, the surface of the temperature equalizing plate being in close contact with the high heat conducting surface of the container, and the heat energy emitted by the container is preserved by heat conduction. The temperature equalizing plate has a capillary structure and a working fluid, the temperature equalizing plate is made of copper, the capillary structure is a metal powder sintered cylinder, the capillary structure is a metal powder sprayed film, and the working fluid is pure water or ultrapure water. Form No. A0101 Page 4 of 11 [0010] 100 March 22nd, Yongzheng Replacement Page [0011] [0013] [0013] In order to make your review board more functional features and achievements Further understanding and understanding, with reference to the preferred embodiments and the detailed description, the following description: [Embodiment] The implementation means, features and functions of the present invention can be further improved by the following detailed description and drawings. Understand. First, please refer to the front view of the structure shown in Fig. 1. As shown in the figure, the present invention is a container heat preservation device 10, which comprises a container 20, the container 20 can accommodate high temperature liquid, and the bottom surface of the container 20 has a height. The heat conducting surface 21, the high heat conducting surface 21 can be a metal surface or a ceramic surface. The container 20 can be a teacup or teapot shape or a flat bottom container or a container. In the embodiment of the present invention, the container 20 is a teacup shape having an upper cover 22. The upper cover 22 can be covered on the container 20 to further prevent heat energy from being dissipated; and a temperature equalizing plate 30, the surface of the temperature equalizing plate 30 is in close contact with the high heat conducting surface 21 of the container 20, and when the container 20 is filled with a high temperature liquid, the container 20 can be borrowed The heat energy dissipated by the container 20 is preserved by heat conduction. The second drawing is a three-dimensional exploded view of the creation. The internal structure of the creation can be more clearly observed by the figure. As shown in the figure, the temperature equalizing plate 30 is made of copper material with good thermal conductivity, wherein the temperature equalizing plate 30 has an internal a metal powder sintered cylinder formed by sintering a metal powder and a metal thin film formed by spraying a metal powder on the inner wall of the temperature equalizing plate 30, and the metal powder film and the metal powder sintered cylinder are formed into a capillary structure 31 and injected into the working fluid 32. The capillary structure 31 can be used to cooperate with the rapid evaporation and condensation of the working fluid 32 to achieve heat storage and rapid heat transfer. Form No. A0101 Page 5 of 11 [0014] [0014] On March 22, 100, the metal powder sintered metal body and the metal powder described above were made of copper powder with good thermal conductivity as an example. The working fluid 32 is pure water or ultrapure water. The working fluid 32 is filled in the inside of the temperature equalizing plate 3, and the thermal energy is transmitted through the phase change. The working fluid 32 is a thermal media boundary, and the phase changes when heated, and the container The two heat conducting faces 21 of the 20 are in contact with one surface of the temperature equalizing plate 3, and the container 20 has an upper cover 22. In order to make a clearer view of the internal structure of the creation, a cross-sectional view taken along Α~·A will be described below. 3 is a cross-sectional view of FIG. 2, the internal structure of the present creation can be more clearly observed by the A_A position. As shown in the figure, the high temperature liquid contained in the container is transferred to the high heat transfer surface 21 at the bottom. The average temperature is up to 3 ,, due to the uniform temperature plate 3. For the copper material, the heat-transfer temperature plate 3 is in contact with the heat source end as the evaporation end 300. In addition, when the working fluid 32 of the evaporation end 300 evaporates into vapor due to heat absorption, the steam 3 is vaporized, and the steam does not evade and rapidly diffuses to the entire condensation end. The 301 condenses, and the capillary structure 31 in the uniform temperature plate 3 flows to the evaporation end. ,: The cold green end 3 () 1 can not eliminate the heat energy, "gas a and work to: 3 save ^ ^ board 3 () inside the ring, and gradually with the high temperature liquid in the container 20 to ^ half-shock, so that The heat is saved' to achieve the thermal balance of the insulation effect. The container heat preservation device 1Q H (4) container 2G and the temperature equalization plate 3G, the heat m emitted from the high temperature liquid of the container by the heat conduction is provided by the temperature correction plate 3G (4) having the capillary structure 31 and the X as the fluid 32. The working fluid 32 is evaporated to a vapor after being heated, and is circulated inside the temperature equalizing plate 3G, thereby achieving thermal equilibrium with the high temperature liquid, and has the effect of heat storage and heat preservation. Compared with the traditional airtight or thermal insulation device that needs to be plugged in, the design is simple and easy to use. It is also environmentally friendly and energy-saving. Form number A0101 Page 6 of 11 M403278 100 March 22 [0017] The above description is only for the preferred embodiment of the present invention, and is intended to enable those skilled in the art to understand the contents of the present invention and to implement it, and is not intended to limit the scope of the present invention; Therefore, the equivalent changes and modifications of the shape, structure, characteristics and spirit described in the scope of application for the creation of this patent should be covered within the scope of the patent application of this creation. [Simplified illustration] [0018] Figure 1 A front view of the structure of this creation. [0019] Figure 2 is an exploded perspective view of the creation. 3 is a cross-sectional view of the second diagram at the A-A position. [Main component symbol description] [0021] Container heat preservation device. 10 [0022] Container. 2 0 [0023] High thermal conductivity surface. 21 [0024] Upper cover. 2 2 [0025] Average temperature plate. 3 0 [0026] Evaporation end .30 0 [0027] Condensing end. 301 [0028] Capillary structure. 31 [0029] Working fluid. 32 Form number A0101 Page 7 of 11