201207328 六、發明說明: 【發明所屬之技術領域】 本發明係與-種節能裝置有關,特別是指一種應用於加熱設備 上’以達贿止熱錄失與敎糾触備發生滴水之節能裝置。 【先前技術】 按,請參閱第-圖所示,係為一種習知加熱設備之系統配置示咅 圖’該加熱設備H)主要係具有—加熱容器u,雌加齡器u传連 接有-進水管丨2以及-出水管13,其中,該進水管12係連接於一水 源,而·水管13職接於1水朗20之出水_,藉此,當使 用者開麟出糊21時,該進水f 12⑽冷水將會叙該加献容哭 η内,並經該加聽n u域成熱錢再由該出水f 13流出,以供 使用者使用。 惟’當觀者_财糊21後,由於該加熱妨u内的水已 被加熱成熱水’因此藉由熱空氣上升之原理,該加熱容器u内的水蒸 氣將會上升聚集於該出水龍頭2G之出水口 22處,並進—步冷卻形成 水滴,導致該出水龍頭20之出水口 22容易發生滴水之狀況,徒增使 用者之困擾’ _ ’該加熱容器u⑽熱能亦會不斷散失,以致於使 用者欲再次使賴水時,該加熱容器u必須重新進行加熱動作,而會 耗費許f能源,極不環保,故’如何研發—種能夠防止滴水以及熱能 散失之節能裝置,實有必要。 【發明内容】 本發明係提供—種域賴之節賊置,其财供設置於-加% 3 201207328 設備上,其中,該加熱設備係具有一加熱容器,且該加熱容器上更連 接有一進水管路以及一出水單元,而該節能裝置則串接於該加熱設備 之進水管路上,並包含有一底座、一冷卻底板、一膨脹膜以及一上蓋, 其中,該底座上係設有一流道,並於該流道的兩端分別開設有一進水 口與一出水口,同時,該底座之一側係凹設有一冷卻槽,並於該冷卻 槽所形成之内壁上穿設有一與該流道相通之穿孔以及一第一貫孔,而 該冷卻底板係密封蓋設於該底座之冷卻槽側,且該冷卻底板上係穿設 春有-與該第-貫孔相通之第二貫孔,而該膨脹膜則由柔軟材質所構 成’且該膨脹膜之-侧係凹設有―凹槽,並密封蓋設於該冷卻底板相 對該底座之伽,而該上蓋之—删凹設有—平觸,絲封蓋設於 該於該膨脹膜相對該冷卻底板之側面,且該上蓋係穿設有一與該平衡 槽相通之氣孔。 口口本發明所提供之-種加熱設備之節能裝置,當該加熱設備之出水 單元開啟後’該進水管路_冷水將會快速的通财底座之流道,此 夺π刀的冷水將會由該穿孔流入該冷卻槽内,同時,該膨服膜之凹 槽内的线將會被吸出而形成真空,進而使該膨脹膜往該冷卻底板之 方向收縮變形’之後’當該出水單元_後,該顧膜將會恢復原狀, 並吸取部分該加熱容器内的熱水,使該加熱容器内形成負壓,而可防 止該出水單元發生滴水,以及達到節能效果,同時,該冷卻槽内的冷 水則會透職冷卻雜,_祕導的村對如__水進辦 溫,而可有效提升該膨脹膜之壽命。 【實施方式】 201207328 清參閱第二圖以及第三騎示,係為本發明之雛實施例之分解 圖以及剖視®,其係揭露有—加熱設備之節能裝置⑽,該節能襄置 100主要係包含有: -底座30 ’其上係設有一貫通兩側之流道3卜並於該流道31的 兩端分別設有-進水口 311與一出水口 312,且該進水口 311與該出 水口 312之直控係大於該流道31之直徑,同時,該底座3〇於該流道 31與該進水口 311之鄰接處更進一步設有一直徑小於該流道31之頸 部313 ’ 3 ’該底座3〇之-側係凹設有一冷卻槽%,並於該冷卻槽 32所开^成之内壁上穿没有一與該流道31相通之穿孔犯以及一第一貫 孔34,且該底座30更圍繞該第一貫孔34環設有一凸環35,又,該底 座30於該冷卻槽32之外緣係環設有一定位環槽%,並進一步於該定 位環槽36之周圍環設有一第一限位環槽。 -冷卻紐4G ’其係由金屬材f所製成,且該冷卻底板4〇之外 緣係對應該底座30之定位環槽36凸設有一圈定位凸緣41,而可密封 蓋設於該底㈣之冷卻槽32側,另,該冷卻底錢上鑛應該底座 30之凸環35設有-凸塊42,可供插設緊配於該凸環35内者,且該凸 塊42上更進-步穿設有—與該第—貫孔34相通之第二貫孔43,又, 該冷卻底板40相對該底座3〇之一側係進一步凹設有一容槽μ。 -膨脹膜50,其係由柔軟材質所製成,如橡膠、pu( p〇i _細⑹ 等樹脂材料’且該膨脹膜5G面_冷卻底板4G之—側係向另側之方 向凹折形成有i槽5卜並於該凹槽51之周圍對肋底座3Q之第一 限位環槽37環設有-第-限位凸塊52,而可蓋設於該底座3〇之冷卻。 201207328 槽32側,並讓該凹槽51密封蓋設於該冷卻底板4〇相對 側面’同時’ 麵5〇更進-步於相_冷卻底板 該第一限位凸塊52設有第二限位凸塊53。 對應 -上蓋60,其面對該膨腺膜50之-側係向另側之方向 有一平衡槽6卜並於該平衡槽61之·對應·_ 5q ^二_ 凸塊53設有第二限位環槽62,而可密封蓋設於該膨贿印相龍冷 卻底板40之側面,此外,該上蓋6G上更進—步穿設有—與該平= 61相通之氣孔63。 曰 為供進-步瞭解本剌構造舰、技術手段騎職達成之 功效,祕本拥制方^>崎述,相信#可由麵對本發明有更 深入且具體之瞭解,如下所述: 請再同時參閱第四圖、第五圖以及第六圖所示,係為本發明之較 佳實施例之使用7F意圖以及動作示意圖,該節能裝置⑽係、可供設置 於-加熱設備200上,該加熱設備雇係具有一加熱容器2G1,且該 加熱容器2G1之兩端係分別連接有一進水管路2〇2以及一出水管路 203 ’該進水官路2〇2更進一步連接於一水源,而該出水管路2〇3則連 接於一出水單兀204上,於本實施例中,該出水單元2〇4係為一管中 官出水龍頭,並具有一出水閥2〇5與一出水口 2〇6,其中,該節能裝 置100之進水口 311與出水口 312係串接於該進水管路202上,而使 該節能裝置100可串接於該進水管路2〇2上,以供讓該進水管路202 内的水流可由該流道31通過,且該節能裝置1〇〇於該進水口 311處更 進一步設有一逆止閥70,可供防止該加熱容器2〇1内之熱水回流。 6 201207328 藉此’如第五圖所示’當該加熱設備之出水閥205開啟後, 該進水管路202内的冷水將會快速的通過該底座3〇之流道3ι,此時, 部分的冷水將會由該穿孔33流人該冷卻槽32内,而均分的水則會 通過該流道3卜啊,由於紐道31的直㈣小於魏水^ %,且 該流道31 _進水口 311之鄰接處係設有該直徑小於該流道31之頸 部313 ’因此水流在通過該流道31時將會產生加速效果而形成負麼, 並在通過該第一貫孔34時,帶走該膨脹膜50之凹槽51内的空氣,使 ♦該凹槽51内形成真空,而讓該膨脹膜5〇往該冷卻底板4〇之方向收縮 變形,同時,外界的空氣則會由該上蓋6〇之氣孔63進入該平衡槽61 内以平衡氣壓,之後,如第六圖所示,當該出水閥2〇5關閉後,由於 該水流將會停止流動而使負壓消失,因此該膨脹膜5〇將會恢復原狀, 並在恢復原狀的過程中吸取部分該加熱容器2〇1内的熱水,使該加熱 谷器201内形成負壓’而可避免該出水單元2〇4之出水口 206發生滴 水,並進一步防止該加熱容器201内的熱能散失,以達到節能效果, 籲同時,該冷卻槽32内的冷水則會透過該冷卻底板40,利用熱傳導的 方式對該凹槽51内的熱水進行降溫冷卻’如此不僅可有效的預防該膨 脹膜50因受熱老化而龜裂,以提升該膨脹膜50之壽命,且該熱水將 會因熱漲冷縮之原理而使體積縮小,因此使該膨脹膜5〇在恢復原狀時 能夠吸取較多的水量,以增加該加熱容器201内之負壓,大幅提升該 節能裝置100之防滴水以及節能效果。 請再同時參閱第七圖以及第八圖所示,係為本發明之另一較佳實 施例之使用示意圖以及動作示意圖’該節能裝置100與前述較佳實施 7 201207328 例不同之處係在於,該底座3〇相對該冷卻底板4〇之一侧更進一步穿 〇又有與該頸部313相通之透孔314,且該透孔314係連接有一管體 38 ’該管體38相對該透孔314之一端係與外界相通,於本實施例中, 由於該出水早70 204係為-管中管出水龍頭,因此該管體38相對該透 孔314之-端係連接於該出水單元與該出水管路測聰形成之 間隙處,而使外界的空氣可由該出水單元2G4之出水口 2()6進入該管 體38 ’同時,該管體38上更串接有一逆止閥39,藉此,如第八圖所 鲁不田該出水單儿2〇4之出水閥2〇5開啟後,該進水管路搬内的冷 水將會快速的通過該底座3〇之流道3卜並在通過該透孔314時產生 負壓以將夕卜界的空氣由該出水單元謝之出水口 206吸入該管體 38 ’再透過該官體38進人關道31内,如此將麟平衡該流道31 内壓力,以進一步達到加速該膨脹膜5〇變形速度之效果。 茲,再將本發明之特徵及其可達成之預期功效陳述如下: 卜本發明之加熱設備之節能裝置,可供在該出水單元之出水闕關 瞻閉時’藉由鱗脹膜將該加熱容如之熱水吸取至該凹槽,使該加熱 容器内形成負壓’以避免㈣水單元之出水口發生滴水,以及有效的 防止該加熱容器内之熱能散失,而能達到極佳之節能效果。 2、 本發明之加熱設備之節能裝置’當該節能裝置作動時,該冷卻 槽將會注滿冷水,可供利用熱傳導之方式透職冷卻底板對該凹槽内 的熱水進行降溫冷卻,以有效的預防該膨脹膜因受熱老化而龜裂,大 幅提昇該膨脹膜之壽命。 3、 本發明之加熱設備之節能裝置,當該節能裝置作動時,該凹槽^ 8 201207328 内之熱水將會因為熱漲冷縮原理而使體積縮小,讓該膨脹膜在恢復原 狀時能夠吸取較多的水量,以增加該加熱容器内之負壓,而可大幅提 升該節能裝置之防滴水以及節能效果。 综上所述,本發明在同類產品中實有其極佳之進步實用性,同時 遍查國内外關於此類結構之技術資料,文獻中亦未發現有相同的構造 存在在先,是以,本發明實已具備發明專利要件,爰依法提出申請。 惟’以上所述者’僅係本發明之一較佳可行實施例而已,故舉凡 應用本發明制書及申料繼贿為之等效結構變化,理應包含在 本發明之專利範圍内。201207328 VI. Description of the invention: [Technical field to which the invention pertains] The present invention relates to an energy-saving device, and more particularly to an energy-saving device for applying a dripping water to a heat-receiving device . [Prior Art] Press, please refer to the figure - shown in the figure, which is a system configuration diagram of a conventional heating device. The heating device H mainly has a heating container u, and the female ageing device is connected with a - The inlet pipe 丨2 and the outlet pipe 13 are connected to a water source, and the water pipe 13 is connected to the water outlet of the shuilang20, whereby when the user opens the squid, The influent water f 12 (10) cold water will be described in the add-on crying η, and the nu domain becomes hot money and then flows out of the effluent f 13 for the user to use. However, after the viewer, the water in the heating layer has been heated to hot water, so the water vapor in the heating container u will rise and accumulate in the effluent by the principle of rising hot air. The water outlet 22 of the faucet 2G is cooled in a stepwise manner to form a water droplet, which causes the water outlet 22 of the faucet 20 to be easily dripped, and the user's troubles are increased. The heat energy of the heating container u (10) is also lost. When the user wants to make the water again, the heating container u has to be reheated, and it consumes a lot of energy, which is extremely environmentally friendly. Therefore, it is necessary to develop an energy-saving device capable of preventing dripping and heat loss. . SUMMARY OF THE INVENTION The present invention provides a thief set, the financial supply of which is set on the -3% 201207328 device, wherein the heating device has a heating container, and the heating container is further connected with a a water pipe and a water outlet unit, wherein the energy-saving device is connected in series to the water inlet pipe of the heating device, and comprises a base, a cooling floor, an expansion film and an upper cover, wherein the base is provided with a first-class road. A water inlet and a water outlet are respectively defined at two ends of the flow channel, and a cooling groove is formed on one side of the base, and an inner wall formed on the cooling groove is connected to the flow channel. a perforation and a first through hole, wherein the cooling bottom plate is provided on the cooling groove side of the base, and the cooling bottom plate is provided with a second through hole communicating with the first through hole The expansion film is made of a soft material and the side of the expansion film is recessed with a groove, and the sealing cover is disposed on the base of the cooling plate relative to the base, and the upper cover is provided with a flat Touch, silk cover is set in The expansion membrane is opposite to the side of the cooling floor, and the upper cover is provided with a hole communicating with the balance groove. The energy-saving device of the heating device provided by the present invention, when the water outlet unit of the heating device is turned on, the water inlet pipe _ cold water will quickly flow through the base of the financial base, and the cold water of the π knife will The perforation flows into the cooling tank, and at the same time, the line in the groove of the expansion film is sucked out to form a vacuum, and then the expansion film is contracted and deformed in the direction of the cooling bottom plate. After that, the film will be restored to the original state, and a part of the hot water in the heating container is sucked to form a negative pressure in the heating container, thereby preventing dripping of the water discharging unit and achieving energy saving effect, and at the same time, the cooling tank is The cold water will be used to cool the miscellaneous, and the village of _ secret guide will heat the __ water, which can effectively improve the life of the expansion membrane. [Embodiment] 201207328 The second drawing and the third riding show are an exploded view and a cross-sectional view of the embodiment of the present invention, which are disclosed as an energy-saving device (10) for heating equipment, and the energy-saving device 100 is mainly The system includes: a base 30' having a flow passage 3 extending through the two sides, and a water inlet 311 and a water outlet 312 respectively disposed at two ends of the flow passage 31, and the water inlet 311 and the water inlet 311 The direct control of the water outlet 312 is larger than the diameter of the flow passage 31. At the same time, the base 3 is further provided with a neck portion 313 '3 having a diameter smaller than the flow passage 31 adjacent to the water inlet 31 and the water inlet 311. 'The bottom of the base is provided with a cooling groove %, and the inner wall of the cooling groove 32 is not pierced by a perforation and a first through hole 34 communicating with the flow path 31, and The base 30 is further provided with a convex ring 35 around the first through hole 34. Further, the base 30 is provided with a positioning ring groove % on the outer edge of the cooling groove 32, and further around the positioning ring groove 36. The ring is provided with a first limit ring groove. - Cooling button 4G' is made of metal material f, and the outer edge of the cooling plate 4 is convexly provided with a positioning flange 41 corresponding to the positioning ring groove 36 of the base 30, and the sealable cover is provided thereon. On the side of the cooling groove 32 of the bottom (4), the cooling bottom of the bottom of the base 30 should be provided with a convex block 42 for inserting and fitting the convex ring 35, and the convex block 42 Further, the second through hole 43 communicating with the first through hole 34 is further provided, and the cooling bottom plate 40 is further recessed with a receiving groove μ on one side of the base 3. - an expansion film 50 made of a soft material such as rubber, pu (p树脂i_fine (6), etc.) and the side of the expansion film 5G_cooling the bottom plate 4G is concave toward the other side The first slot 5 is formed around the recess 51 and the first limit ring 52 is looped around the recess 51 to cover the cooling of the base 3 . 201207328 groove 32 side, and the groove 51 is sealed and disposed on the opposite side of the cooling bottom plate 4' at the same time 'surface' 5〇 further into the phase_cooling bottom plate, the first limiting protrusion 52 is provided with a second limit a bump 53. The corresponding upper cover 60 has a balance groove 6 facing the other side of the expanded membrane 50, and corresponds to the balance groove 61. _ 5q ^ 2 _ bump 53 The second limit ring groove 62 is provided, and the sealable cover is disposed on the side of the cracked seal phase dragon cooling bottom plate 40. In addition, the upper cover 6G is further provided with a gas hole communicating with the flat plate. 63. 曰 供 供 - - - - - - - - - - - - - - - - - - - - - - - - - 剌 剌 剌 剌 剌 剌 剌 剌 剌 剌 剌 剌 剌 剌 剌 剌 剌 剌 剌 剌 剌Said: Please refer to the fourth, fifth and sixth figures at the same time, which is a schematic diagram of the use of 7F and the action of the preferred embodiment of the present invention. The energy-saving device (10) is provided for heating. In the apparatus 200, the heating device employs a heating container 2G1, and the two ends of the heating container 2G1 are respectively connected with a water inlet pipe 2〇2 and a water outlet pipe 203. The water inlet official road 2〇2 further Connected to a water source, and the water outlet pipe 2〇3 is connected to a water outlet unit 204. In the embodiment, the water outlet unit 2〇4 is a pipe center water outlet tap and has a water outlet valve 2 〇5 and a water outlet 2〇6, wherein the water inlet 311 and the water outlet 312 of the energy-saving device 100 are connected in series to the water inlet pipe 202, so that the energy-saving device 100 can be connected in series to the water inlet pipe 2 〇2, in order to allow the water flow in the water inlet pipe 202 to pass through the flow passage 31, and the energy-saving device 1 is further provided with a check valve 70 at the water inlet 311 to prevent the heating container 2热水1 hot water reflux. 6 201207328 By this 'as shown in the fifth figure' When the water outlet valve 205 of the heating device is turned on, the cold water in the water inlet pipe 202 will quickly pass through the flow channel 3 of the base 3, and at this time, part of the cold water will flow from the perforation 33 to the cooling channel. 32, and the equally divided water will pass through the flow channel 3, since the straight (four) of the new road 31 is smaller than the Wei water, and the adjacent portion of the flow passage 31_water inlet 311 is smaller than the diameter. The neck portion 313' of the flow path 31 thus causes the water flow to have an acceleration effect when passing through the flow path 31 to form a negative, and when passing through the first through hole 34, the inside of the groove 51 of the expansion film 50 is carried away. The air is so as to form a vacuum in the groove 51, and the expansion film 5 is contracted and deformed in the direction of the cooling bottom plate 4, and the outside air enters the balance groove 61 from the air hole 63 of the upper cover 6〇. The internal pressure is balanced, and then, as shown in the sixth figure, when the water outlet valve 2〇5 is closed, since the water flow will stop flowing and the negative pressure disappears, the expansion membrane 5〇 will be restored to its original state, and During the process of returning to the original state, a part of the hot water in the heating container 2〇1 is sucked to make the heating barn 20 A negative pressure is formed in 1 to prevent dripping of the water outlet 206 of the water discharge unit 2〇4, and further prevent heat loss in the heating container 201 to achieve energy saving effect, and at the same time, the cold water in the cooling tank 32 is Through the cooling bottom plate 40, the hot water in the groove 51 is cooled and cooled by heat conduction. Thus, the expansion film 50 can be effectively prevented from being cracked due to heat aging, thereby improving the life of the expansion film 50. Moreover, the hot water will be reduced in size due to the principle of heat expansion and contraction, so that the expansion membrane 5 can absorb a large amount of water when it is restored to increase the negative pressure in the heating container 201, thereby greatly increasing the The drip-proof and energy-saving effect of the energy-saving device 100. Referring to FIG. 7 and FIG. 8 at the same time, it is a schematic diagram of the use and an operation diagram of another preferred embodiment of the present invention. The difference between the energy-saving device 100 and the preferred embodiment 7 201207328 is that The base 3 is further penetrated with respect to one side of the cooling bottom plate 4 and has a through hole 314 communicating with the neck 313, and the through hole 314 is connected with a pipe body 38'. The pipe body 38 is opposite to the through hole One end of the 314 is in communication with the outside. In this embodiment, since the water outlet 70 204 is the tube outlet faucet, the end of the tube 38 is connected to the outlet unit with respect to the end of the through hole 314. The water outlet pipe is formed at the gap formed by the smarter, so that the outside air can enter the pipe body 38' from the water outlet 2 () 6 of the water outlet unit 2G4, and the pipe body 38 is further connected with a check valve 39 in series. Therefore, as shown in the eighth figure, the Lushui water single 2〇4 water outlet valve 2〇5 is opened, the cold water in the water inlet pipe will quickly pass through the base 3 channel 3 and When the through hole 314 is passed, a negative pressure is generated to pass the air of the eve from the water discharge unit. The water outlet 206 is sucked into the tubular body 38' and then enters the human passageway 31 through the official body 38. Thus, the inner balance of the flow passage 31 is balanced to further accelerate the deformation speed of the expanded membrane. Further, the features of the present invention and the achievable expected effects thereof are as follows: The energy-saving device of the heating device of the present invention can be used to heat the effluent unit when the effluent unit is closed. The hot water of Rongru is sucked into the groove to form a negative pressure in the heating container to avoid dripping of the water outlet of the (four) water unit, and effectively preventing the heat energy in the heating container from being lost, thereby achieving excellent energy saving. effect. 2. The energy-saving device of the heating device of the present invention, when the energy-saving device is actuated, the cooling tank will be filled with cold water, and the hot water in the groove can be cooled and cooled by means of heat conduction. Effectively preventing the expansion film from cracking due to heat aging, greatly increasing the life of the expansion film. 3. The energy-saving device of the heating device of the present invention, when the energy-saving device is actuated, the hot water in the groove ^ 201207328 will be reduced in size due to the principle of heat expansion and contraction, so that the expansion film can be restored when it is restored to its original state. The amount of water is taken up to increase the negative pressure in the heating container, and the drip-proof and energy-saving effect of the energy-saving device can be greatly improved. In summary, the present invention has excellent advancement and practicability in similar products, and at the same time, the technical materials of such structures are frequently investigated at home and abroad, and the same structure is not found in the literature. The invention already has the invention patent requirements, and the application is filed according to law. However, the above-mentioned ones are merely preferred embodiments of the present invention, and the equivalent structural changes in the application of the present invention and the application of bribes are included in the scope of the present invention.
[S3 9 201207328 【圖式簡單說明】 第一圖係為一種習知加熱設備之示意圖。 第二圖係為本發明之較佳實施例之分解圖。 第三圖係為本發明之較佳實施例之剖視圖。 第四圖係為本發明之較佳實施例之使用示意圖。 第五圖係為本發明之較佳實施例之動作示意圖,以顯示該節能裝置在 該加熱設備啟動時的狀態。 籲第六圖係為本發明之較佳實施例之動作示意圖,以顯示該節能裝置在 該加熱設備關閉後的狀態。 第七圖係為本發明之另一較佳實施例之使用示意圖。 第八圖係為本發明之另一較佳實施例之動作示意圖。 【主要元件符號說明】 〔習知〕 10 加熱設備 11 加熱容器 12 進水管 13 出水管 20 出水龍頭 21 出水閥 22 出水口 〔本發明〕 100 節能裝置 30 底座 31 流道 311 進水口 312 出水口 313 頸部 314 透孔 10 201207328[S3 9 201207328 [Simple Description of the Drawings] The first figure is a schematic diagram of a conventional heating device. The second drawing is an exploded view of a preferred embodiment of the invention. The third drawing is a cross-sectional view of a preferred embodiment of the invention. The fourth drawing is a schematic view of the use of the preferred embodiment of the present invention. The fifth drawing is a schematic view of the operation of the preferred embodiment of the present invention to show the state of the energy saving device when the heating device is activated. The sixth drawing is a schematic view of the operation of the preferred embodiment of the present invention to show the state of the energy saving device after the heating device is turned off. Figure 7 is a schematic illustration of the use of another preferred embodiment of the present invention. The eighth figure is a schematic view of the action of another preferred embodiment of the present invention. [Main component symbol description] [General] 10 Heating device 11 Heating container 12 Inlet pipe 13 Outlet pipe 20 Outlet faucet 21 Outlet valve 22 Water outlet [Invention] 100 Energy-saving device 30 Base 31 Flow path 311 Water inlet 312 Water outlet 313 Neck 314 through hole 10 201207328
32 冷卻槽 33 穿孔 34 第一貫孔 35 凸環 36 定位環槽 37 第一限位環槽 38 管體 39 逆止閥 40 冷卻底板 41 定位凸緣 42 凸塊 43 第二貫孔 44 容槽 50 膨脹膜 51 凹槽 52 第一限位凸塊 53 第二限位凸塊 60 上蓋 61 平衡槽 62 第二限位環槽 63 氣孔 70 逆止閥 200 加熱設備 201 加熱容器 202 進水管路 203 出水管路 204 出水龍頭 205 出水閥 206 出水口 [s] 1132 Cooling groove 33 Perforation 34 First consistent hole 35 Convex ring 36 Positioning ring groove 37 First limit ring groove 38 Pipe body 39 Check valve 40 Cooling plate 41 Positioning flange 42 Bump 43 Second through hole 44 Cylinder 50 Expansion film 51 Groove 52 First limit bump 53 Second limit bump 60 Upper cover 61 Balance groove 62 Second limit ring groove 63 Air hole 70 Check valve 200 Heating device 201 Heating container 202 Inlet pipe 203 Outlet pipe Road 204 Outlet 205 Outlet valve 206 Outlet [s] 11