M272961 八、新型說明: 【新型所屬之技術領域】 本創作係有關一種冰箱及造水機合併為一體的設計, 尤指一種可在冰箱與造水機的結合下,充分利用冰箱的冷 媒循環系統產生的冷、熱,冰箱取用冷媒循環系統的冷、 造水機取用冷媒循環系統的熱,配合造水機内所產生的真 空環境,即可將原水以低溫的方式蒸餾出可飲用的純水, 充分利用冷媒循環系統的特性,達到節省能源、一機兩用 之真空低溫造水冰箱者。 【先前技術】 按,冰箱是現今各種場所必備的電器用品,但是在現 今的冰箱只取其低溫使用,而其必然會產生的熱能,卻是 只將其排放未能善加利用,以冰箱之製冷系統原理,要產 生低溫即是將冰箱内的熱能排放至箱體外,而被排放至箱 體外的熱能也鼻是^一種浪費’也就是冰相有^一半的能源被 浪費,誠屬可惜。 再者,一般市售淨水器其多為過濾式,其原理為使水 流過一層或多層過濾材質濾心完成其濾水之動作。僅可約 略濾除水中大顆粒之部分雜質,對於一些較小顆粒之雜質 、細菌、病毒等有、無機物質則無法有效地濾除,該過渡 材質於使用一段時期之後,即因其附著過量之雜質而使濾 水器有細菌滋生之虞,故其非但無法有效地濾除雜質且有 M272961 污染水質之問題產生。 另外市場上亦有所謂的蒸餾水製造機,其主要是利用 加熱器加熱煮沸之方法,將水蒸發再凝結,以達到去除水 中雜質之目的;但此種使用高溫煮沸再凝結的方式,必須 定期清洗加熱筒與水管路内的沉積物及汙垢,其電力的消 耗往往比較高。 » 'φ 【新型内容】 有鑑於上述冰箱只利用製冷系統,而不使用其製冷系 統必然產生的熱能5造成貢源的浪費’及遽水器/淨水機 之種種缺失,故本創作人乃積極著手研究,本著精益求精 之精神,盼能設計一種可在冰箱與造水機的結合下,充分 利用冰箱的冷媒循環系統產生的冷、熱,配合造水機内所 產生的真空環境,即可將原水以低溫的方式蒸餾出可飲用 的純水,達到節省能源、一機兩用之真空低溫造水冰箱來 •解上述之困擾及缺失。 本創作之主要目的,乃在於提供一種可在冰箱與造水 - 機的結合下,充分利用冰箱的冷媒循環系統產生的冷、熱 * " ,配合造水機内所產生的真空環境,即可將原水以低溫的 方式蒸餾出可飲用的純水,達到節省能源、一機兩用之真 空低溫造水冰箱。 本創作之次要目的,乃在於提供一種真空低溫蒸餾純 水設計,使冰箱中的冷媒循環系統穿設於造水機内,如此 6 M272961 配置组成,即可使造水機内的蒸館室,可藉由水泵之没引 作用而抽引呈真空狀態,再利用蒸發器由主機内取得熱能 ,並由熱交換器將此熱能供給造水機的蒸儲室以進行蒸發 作用,使原水做真空低溫蒸餾,並將水蒸氣凝結成水滴匯 集於蒸餾室之純水室中,且利用水泵之導流效果,使純水 得汲引至儲水筒内保存,如此乃獲得一極純淨之飲用水者 ,並因係在低溫做蒸鶴作用,故不會產生水垢凝結,因而 得常保機件之正常高效率運作,及不需使用法學藥劑清洗 和節省能源者。 【實施方式】 為使貴審查委員充分瞭解本創作之目的、特徵及功 效,茲藉由下述具體之實施例,並配合所附之圖式,對本 創作做一詳細說明,說明如后: 如第一圖所示,本創作真空低溫造水冰箱設計,其係 由主機1、冰箱單元2、冷媒管迴路3、水管迴路4所組 成;其中: 該主機1,係包含一可供冷媒循環於真空低溫造水冰箱的 壓縮機1 1、一搭配有溫控啟動風扇1 3用以 降低壓縮機溫度的冷凝器1 2,及一可於内部 產生真空狀態的蒸餾室1 4,其中,該蒸餾室 1 4内分隔有原水室1 4 1及純水室1 4 2, 在原水室1 4 1内設有熱交換器1 4 3及水位 M272961 開關1 4 4 ’且在原水室1 4 1頂部設有上、 下隔板1 4 1 1、1 4 1 2,而在純水室工4 2内設有一可將低溫蒸氣凝結成水滴的凝結器 1 4 5,另,在蒸餾室1 4上設有在換水時, 可解除蒸餾室内真空狀態的洩壓閥1 4 6、一 可供原水進入原水室1 4 1内的壓力開關1 4 7、進水閥1 4 8,及一在蒸餾室1 4換水時 可排放原水室1 4 1内廢水的排水閥i 4 9 ; 該冰箱早702,其包含有冷藏室21、冷凍室2 2,及一 可儲存純水的儲水筒2 3,其中,該冷藏 室2 1、冷凍室2 2除了正面之開啟面外 ’其餘各面皆由可降低溫度的第一、二蒸 發器2 1 1、2 2 1所圍繞,另,在第一 洛發器2 1 1上設有一可增加冷熱對流的 循環風扇2 1 2,而儲水筒2 3則設置於 冷藏室2 1内,且其一側設有可令純水流 出的出水開關2 3 1、及控制水位的水位 開關2 3 2,並開設有一可排放自蒸餾室 抽出的空氣之通氣孔2 3 3 . 該冷媒管迴路1 ’ ,主要供冷媒流動,並由壓縮機丄丄將冷 媒送出,而冷媒依序會經過:一可降低 冷媒溫度的冷凝器丨2、一可經冷媒轉 換成低熱能的熱交換器1 4 3、一可去 除冷媒中水氣的乾燥筒3 1、兩膨脹閥 M272961 3 2分別連接到第一、二蒸發器2工工 、2 2 1可將冷媒壓縮再膨脹,使冷媒 密度降低可吸附更多熱能、一在蒸餾室 4内了將水蒸氣凝結成水滴的凝結器 1 4 5,最後再回到壓縮機丄丄重覆循 環; 該水官迴路4,其進、出管口都與儲水筒2 3相接,並在 水管迴路4上設有一水泵4 1、過濾網4 2,及一真空產生器43,該真空產生器 4 3與蒸館室1 4内的純水室1 4 2間, 係具有一汲水管4 4,在汲水管4 4上還 没有活性碳4 5及逆止閥4 6。 再者,該水泵4 1係以水作為驅動之動力源,而水栗 4 1之進水口係與過渡網4 2相接連,可防止水栗4丄遭 雜質入侵,另於該出水口乃與真空產生器4 3相連接且 真空產生器4 3的-側又與;及水管4 4相連接;當蒸館室 1 4的水位不足時,該壓力開關i 4 7及進水閥j 4 8會 將原水引入蒸餾室1 4的原水室1 4 1中,在水泵4 i正 常運作下,該真空產生器4 3會透過汲水管4 4將蒸餾室 1 4内的空氣不斷抽出送至儲水筒23内,再由儲水筒2 3的通氣孔2 3 3將空氣排放出去;而當水泵4 1停止運 轉時,儲水筒2 3内的水會回流至汲水管4 4,但在汲水 官44上因設有一逆止閥46,且汲水管44内的水重量 及蒸餾室1 4内的負壓,會將逆止閥4 6壓住防止水回流 M272961 =此^留室! 4内將一直保持負壓的狀態,逆止間 的關閉,所以儲水筒23内的水就不會回流入蒸 ^利用j述構件’在首次使用時,將上〇 〇 Μ至h 你一㈣线水或煮、沸過的水加至小儲水筒2 3 Θ ,即可 …、知至1 4内之空氣得藉由水泵41及真空產生哭4 所:出之強力水流汲引作用,使蒸餾室14内抽引:直空 大:广矣餾室i 4的水位下降’經水位開關上“摘: 传知後,該進水閥i 4 8開啟,使原水進人錢室工4内 的原水至1 4 1中,當水位開關工4 4偵測到水位至標準 水位後,即關閉進水閥工4 8 ’水位開關工4 4於造水期 間持續監控水位,控制進水閥工4 8使水位保持一定,而 原水至1 4 1内之原水因於真空狀態下接觸熱交換器工4 3 ’經由熱交換器1 4 3所散發出微量之熱能將原水產生 ,空低溫蒸德現象’而經蒸發後之水蒸氣即會通過上、下 反1 4 1 1、1 4 1 2 ’上升至蒸顧室工4之頂端,再 進入純水室1 4 2内,並與其内部的凝結器丄4 5接觸, 使水蒸氣凝結成水滴匯集於純水室1 4 5内,而在水蒸氣 中非常微量極輕雜質則會被上、下隔板丄4丄丄、丄4工 2予以吸附阻隔,在水泵4 χ持續運作下’該真空產生器 j 3會不斷的經沒水管4 4抽出蒸顧室丄4内的純水及^ 氣,而該純水會經汲水管4 4上的活性碳4 5、逆止閥4 6被真空產生為4 3汲引至儲水筒2 3内,該儲水筒2 3 罝透過通氣孔2 3 3將同時吸進的空氣釋放,並由第一蒸 10 M272961 發器2 1 1將水溫再度降低;而儲水筒2 3水位内— 會保持可供水泵4 i 運作的純水,且獲得—極纯淨之 飲用水者。 另,因冷媒管迴路3所通過的冷凝器12、献 143、第-、二蒸發器211、221及凝結器14^ ’於壓縮機1 1啟動後,即會壓送冷媒使冷凝器i 2、埶 =器143、第—、二蒸發器2U、221及凝結器 1 4 5冷卻’而冷藏室2 1、儲水筒2 3内的溫度也因此 降至5 C左右’而冷凌室2 2則會降至負5〇c左右;在將 水条氣凝結成水滴的同時’雖然會使凝結器工* 5的田产 上升,但在製水㈣程巾,因該冷媒是精的在冷媒^ 路3中持續循環,所以其冷凝器工2、第一、二 221、Wl 4 5也會持續的降溫,因二水 同2 3内的水溫會保持在低溫狀態,故,凝結器m因 凝結蒸氣而使其本身溫度上升的問題,係可經由冷凝哭i 2、第-、二蒸發器211、221、凝結器i45:速 降溫冷卻,而且因是低溫蒸顧其水蒸氣的溫度約4『c左 右’因此當4 CTC的水蒸氣接觸到的凝結器工4 5時 會馬上凝結成水滴,且快速的被抽出純水室i 4 2並、、&入 汲水管44,並藉由真空產生器43進入水管迴路^後 流進儲水筒2 3内,再經第—蒸發器2! !的再次冷卻, 複循環冷卻降溫的過程中,使凝結器i 4 5的溫度 可以吊保在5C的冷卻狀態下,又經冷凝後所產生的水滴 ’會被水泵4 1及真^產生器4 3快速的抽引出純水室工 M272961 42 ’所以凝結器145的冷凝速率是足夠的。(上述的 製水速率並非完全取決於凝結器丄4 5的冷凝效果,盆口 是一個輔助裝置而非決定性的要件。) 、 又口原水至141内的原水已因水分子的氣化某發 „而使得水位下降,經水位開關1 4 4測得水位下降/即 開啟進水間148供給原水,使原水室141進水’當水 位開關1 4 4測到;f水宮彳/ , ^ u 田 關閉進水閥148 = Γ位達預定水位時就會 的一空氣二其真空 ^ H ^ 4 4 使侍真空產生器4 3可 ==空氣抽出蒸餘室14,亦會加速純 :=的速度;如此,在水果41持續運轉下,-二二即會不斷的蒸館出純水,並儲存於儲水筒23内、 炉n人本創作於原水至1 41中其整個反應作用之埶 匕、,料媒循環系統内經第—、二蒸發器ϋ 換哭14 2吸收熱能的冷媒,以熱交 水;主要之來源,令原水室141内原 生心:、一之狀悲下’因受熱交換器14 3熱度而產 如此\ 成水蒸氣’進而完成真空低溫蒸館之步驟; 作乃僅以少量之電源即可令熱交換器“3發 心^用熱交換器143所提供微量之熱能而達到直空 ::?作業,且該熱交換器14 3經冷凝器12通過 疋為了避免其溫度過高,由此可知,其並不需另行提 M272961 仏间功卞之加熱裝置以進行蒸餾之動作,故可達到節省 能源之目的。 另言,本創作中在汲水管44處組設一活性碳4 5之 目的,在於過遽真空低溫蒸館後產生的水蒸氣巾,所夹帶 有之異味或三函甲烷、氯氣等有無機物;以達到取得之純 水是一極純淨的飲用水。 又a,该冰相單兀2的冷媒管迴路3中不斷循環的冷 媒,可將冷凝器i 2、第一、二蒸發器2 i i、2 2工一 直保持在預定的低m蒸發器21:1後的猶環風扇 2 1 2 ’則可增加冷熱對流的效果;$,因冷媒管迴路3 在組裝的過程中,多少會有水氣殘留於冷媒之中,故設 2-可去除冷媒中的水氣的乾燥筒31,及兩分別連接到 弟-、一条發器2 1 1、2 2 1可將冷媒麼縮再膨脹,使 冷媒密度降低可吸附更多熱能的膨脹閥3 2,當冷媒經上 述錢W 1、膨㈣3 2處理後,該冷射會通過第一、 -条發器2 1 1、2 2 1再度循環於冷媒管迴路3中。 另。之,§崧館至1 4於製水一段時間後,因其係將 :質留於蒸餾室1 4内’故,會使蒸餾室i 4内原水之雜 質度升高,而到一定的程度後就必須排除,當要換水時, 要先料㈣i 4 6開啟,使蒸财i 4解除真空狀態, 再開啟排水閥1 4 9才能讓原水可順利排放出去而當原 水排放完畢時,再依序關閉排水閥i 4 9、茂壓閥丄 即可,而蒸财1 4也就可以重新將原水導人,該水以 1及真空產生器4 3也會重新將蒸餾室丄4内的空氣抽 13 M272961M272961 8. Description of the new type: [Technical field to which the new type belongs] This creation relates to a design in which a refrigerator and a water generator are integrated into one, especially a refrigerant circulation system that can make full use of the refrigerator under the combination of the refrigerator and the water generator The cold and heat generated, the refrigerator takes the cold of the refrigerant circulation system, the water generator takes the heat of the refrigerant circulation system, and cooperates with the vacuum environment generated in the water generator, the raw water can be distilled at a low temperature into a drinkable pure Water, making full use of the characteristics of the refrigerant circulation system, to achieve energy-saving, one machine dual-use vacuum low temperature water refrigerator. [Previous technology] According to the press, the refrigerator is an indispensable electrical appliance in various places today, but in today's refrigerators, only the low temperature is used, and the heat energy that it inevitably generates is only discharged. The principle of the refrigeration system is that to generate low temperature, the thermal energy in the refrigerator is discharged to the outside of the cabinet, and the thermal energy discharged to the outside of the cabinet is ^ a waste '', that is, half of the energy in the ice phase is wasted, which is a pity. Furthermore, most commercially available water purifiers are mostly filter type. The principle is to allow water to flow through one or more layers of filter material to complete its water filtering action. Only a small amount of impurities in large particles in water can be filtered out, and some small particles such as impurities, bacteria, viruses, and other inorganic substances cannot be effectively filtered. After using the transition material for a period of time, it is because of excessive adhesion. The impurities may cause bacteria to breed in the water filter, so it is not only unable to effectively filter the impurities, but also has the problem of M272961 polluting water quality. In addition, there is a so-called distilled water manufacturing machine on the market, which mainly uses a heater to heat and boil, and the water is evaporated and re-condensed to achieve the purpose of removing impurities in the water; however, this method of using high-temperature boiling and re-condensation must be cleaned regularly. The power consumption of the deposits and dirt in the heating tube and the water pipeline is often relatively high. »'Φ [New content] In view of the fact that the above-mentioned refrigerators only use the refrigeration system, and do not use the inevitable heat generated by the refrigeration system5, which is a waste of tribute sources' and the lack of decanters / water purifiers, the author is Actively start research, in the spirit of excellence, hope to design a combination of refrigerator and water generator, make full use of the cold and heat generated by the refrigerant circulation system of the refrigerator, and the vacuum environment generated in the water generator, you can The raw water is distilled into potable pure water in a low-temperature manner to achieve energy-saving, one-machine dual-use vacuum low-temperature water-making refrigerators to solve the above problems and deficiencies. The main purpose of this creation is to provide a refrigerator and a water generator that can fully utilize the cold and heat generated by the refrigerator's refrigerant circulation system, and cooperate with the vacuum environment generated in the water generator. The raw water is distilled into potable pure water in a low-temperature manner, so that a vacuum low-temperature water-making refrigerator capable of saving energy and using one machine for two purposes can be achieved. The secondary purpose of this creation is to provide a design of vacuum low-temperature distilled pure water, so that the refrigerant circulation system in the refrigerator is installed in the water generator. In this way, the configuration of 6 M272961 can make the steam room in the water generator. The pump is drawn into a vacuum state by the non-priming effect of the water pump, and the evaporator is used to obtain heat energy from the host, and this heat energy is supplied to the steam storage chamber of the water generator for evaporation by the heat exchanger, so that the raw water is made vacuum and low temperature. Distilling, condensing water vapor into water droplets and collecting them in the pure water chamber of the distillation chamber, and using the diversion effect of the water pump, the pure water can be drawn into the water storage tank for preservation, so as to obtain a very pure drinking water, and Because it works as a steaming crane at low temperature, it does not cause scale condensation, so it is necessary to always ensure the normal and efficient operation of the parts, and those who do not need to use legal medicine to clean and save energy. [Implementation] In order to make your reviewing committee fully understand the purpose, characteristics and effects of this creation, hereby use the following specific examples and the accompanying drawings to make a detailed description of this creation, as described later: As shown in the first figure, the original design of the vacuum low-temperature water-making refrigerator is composed of the main unit 1, the refrigerator unit 2, the refrigerant pipe circuit 3, and the water pipe circuit 4; Compressor 1 for vacuum cryogenic water refrigerators 1, a condenser 12 equipped with a temperature-controlled start fan 1 3 to reduce the temperature of the compressor, and a distillation chamber 14 which can generate a vacuum state inside, wherein the distillation The raw water chamber 1 4 1 and the pure water chamber 1 4 2 are separated in the chamber 1 4. A heat exchanger 1 4 3 and a water level M272961 switch 1 4 4 ′ are arranged in the raw water chamber 1 4 1 and on the top of the raw water chamber 1 4 1 Upper and lower partitions 1 4 1 1 and 1 4 1 2 are provided, and a condenser 1 4 5 for condensing low-temperature steam into water droplets is provided in the pure water chamber worker 4 2. In addition, on the distillation chamber 14 There is a pressure relief valve 1 4 6 which can release the vacuum state in the distillation chamber during water change. The pressure switch 1 4 7 entering the raw water chamber 1 4 1, the water inlet valve 1 4 8, and a drain valve i 4 9 that can discharge the waste water in the raw water chamber 1 4 1 when the water in the distillation chamber 14 is changed; the refrigerator is as early as 702. It includes a refrigerating compartment 21, a freezing compartment 22, and a water storage tank 23 that can store pure water. Among them, the refrigerating compartment 21 and the freezing compartment 2 2 are made of The first and second evaporators 2 1 1 and 2 2 1 which reduce the temperature are surrounded. In addition, the first fan 2 1 1 is provided with a circulation fan 2 1 2 which can increase cold and heat convection, and the water storage tube 2 3 is It is set in the refrigerating compartment 21, and one side is provided with a water outlet switch 2 3 1 for allowing pure water to flow out, and a water level switch 2 3 2 for controlling the water level, and an air vent for discharging air extracted from the distillation chamber is provided. 2 3 3. The refrigerant pipe circuit 1 ′ is mainly used for refrigerant flow, and the refrigerant is sent out by the compressor ,, and the refrigerant will pass through in sequence: a condenser that can reduce the temperature of the refrigerant 丨 2, which can be converted into Low heat energy heat exchanger 1 4 3. A drying cylinder to remove water vapor from the refrigerant 3 1. Two expansion valves M272961 3 2 respectively After receiving the first and second evaporators, 2 workers and 2 2 1 can compress and expand the refrigerant to reduce the density of the refrigerant and absorb more thermal energy. A condenser in the distillation chamber 4 that condenses water vapor into water droplets 1 4 5. Finally, return to the compressor and repeat the cycle. The water officer circuit 4, its inlet and outlet pipes are connected to the water storage tank 2 3, and a water pump 4 is installed on the water pipe circuit 4. 1, the filter 4 2, and a vacuum generator 43, the vacuum generator 4 3 and the pure water chamber 1 4 2 in the steam room 14 have a water pipe 4 4, and there is no activated carbon 4 on the water pipe 4 4 5 and check valve 4 6. Furthermore, the water pump 41 uses water as a driving power source, and the water inlet of the water chestnut 41 is connected to the transition network 42 to prevent the water chestnut 4 from being invaded by impurities. The vacuum generator 4 3 is connected and the-side of the vacuum generator 4 3 is connected again; and the water pipe 4 4 is connected; when the water level in the steam room 14 is insufficient, the pressure switch i 4 7 and the water inlet valve j 4 8 The raw water will be introduced into the raw water chamber 1 4 1 of the distillation chamber 14. Under the normal operation of the water pump 4 i, the vacuum generator 43 will continuously extract the air in the distillation chamber 14 through the water pipe 4 4 and send it to the water storage tank. In 23, the air is exhausted through the vent holes 2 3 3 of the water storage tank 23, and when the water pump 41 stops, the water in the water storage tank 23 will return to the water pipe 44, but in the water pump 44 There is a check valve 46 on the top, and the weight of water in the suction pipe 44 and the negative pressure in the distillation chamber 14 will press the check valve 46 to prevent water from flowing back. M272961 = this ^ retention chamber! 4 will always maintain the state of negative pressure and close the backstop, so the water in the water storage tank 23 will not flow back into the steam. ^ Using the above-mentioned component, when it is used for the first time, it will be from 0M to h. Water or boiled or boiled water is added to the small storage tank 2 3 Θ, then ... the air in 14 must be generated by the water pump 41 and vacuum 4: the strong water flow draws the effect and makes the distillation Extraction in chamber 14: Straight air is large: The water level of i 4 in the Guangxi distillation chamber is lowered by “water level switch”: after being informed, the water inlet valve i 4 8 is opened, so that the raw water enters the money room 4 From raw water to 1 4 1, when the water level switcher 4 4 detects that the water level reaches the standard water level, the water inlet valve operator 4 8 'water level switcher 4 4 continuously monitors the water level during the water production and controls the water inlet valve operator 4 8 to keep the water level constant, and the raw water to 1 4 1 due to contact with the heat exchanger workers under vacuum conditions 4 3 'via the heat exchanger 1 4 3 emits a small amount of heat energy to generate raw water, air and low temperature steaming phenomenon 'And the water vapor after evaporation will go up and down 1 4 1 1, 1 4 1 2' Rise to the top of the steam room worker 4, and then Enter the pure water chamber 1 4 2 and contact the internal condenser 丄 4 5 to condense the water vapor into water droplets and collect in the pure water chamber 1 4 5. A very small amount of very light impurities in the water vapor will be applied. The lower partitions 丄 4 丄 丄 and 丄 422 are used to absorb and block. Under the continuous operation of the water pump 4 ×, the vacuum generator j 3 will continuously extract the pure water in the steaming room 丄 4 through the submerged pipe 4 4. ^ And the pure water passes through the activated carbon 4 on the water pipe 4 4 and the check valve 4 6 is vacuum generated to 4 3 and is drawn into the water storage tank 2 3, the water storage tank 2 3 罝 passes through the vent hole 2 3 3 release the air sucked in at the same time, and the first steaming 10 M272961 sender 2 1 1 will reduce the water temperature again; and the water storage tank 2 3 water level-will maintain the pure water available for the pump 4 i operation, and obtain- Extremely pure drinking water. In addition, the condenser 12, 143, first, second evaporators 211, 221, and condenser 14 passed by the refrigerant pipe circuit 3 will start after the compressor 11 is started. Pressure-feeding the refrigerant cools the condenser i 2, 埶 = 143, the first and second evaporators 2U, 221, and the condenser 1 4 5 ', and the temperature in the refrigerating compartment 2 1 and the water storage tank 2 3 is also cooled. Therefore, it will be reduced to about 5 C ', and the cooling chamber 22 will be reduced to about 50 C. While condensing the water strips into water droplets,' Although it will increase the production of condenser workers * 5, For the process towel, because the refrigerant is fine and continuously circulates in the refrigerant circuit 3, the condenser workers 2, the first, the second, the 221, and the Wl 4 5 will also continue to cool down, because the second water is the same as the water in the 2 3 The temperature will remain at a low temperature. Therefore, the problem of the condenser m increasing its temperature due to the condensed vapor can be achieved through condensation crying. 2, the first and second evaporators 211, 221, and condenser i45: cooling down, And because the steam temperature of the steam is about 4 "c", when the 4 CTC water vapor contacts the condenser, it will condense into water droplets immediately, and it will be quickly drawn out of the pure water chamber i 4 2 And ,, & enter the suction pipe 44, and enter the water pipe circuit through the vacuum generator 43 and then flow into the storage tank 23, and then re-cooled by the first evaporator 2! , So that the temperature of condenser i 4 5 can be hoisted in a cooling state of 5C, and the water droplets generated after condensation will be The water pump 41 and generator 43 ^ true rapid extraction water chamber pumping station M272961 42 'so that the condenser 145 is condensed sufficient rate. (The above water production rate does not completely depend on the condensation effect of condenser 丄 45. The basin mouth is an auxiliary device rather than a decisive element.) 又 The raw water in the mouth to 141 has been caused by the gasification of water molecules. „When the water level is lowered, the water level is measured by the water level switch 1 4 4 / that is, the water inlet 148 is turned on to supply raw water, and the raw water chamber 141 is supplied with water. When the water level switch 1 4 4 is detected; Tian closed the water inlet valve 148 = one air and two vacuums when the Γ position reaches the predetermined water level ^ H ^ 4 4 so that the vacuum generator 4 3 can == the air is drawn out of the steam room 14, and it will also accelerate the pure: = Speed; in this way, under the continuous operation of fruit 41,-22 will continue to steam the hall to produce pure water, and store it in the water storage tank 23. In the material-medium circulation system, the first and second evaporators are used to change the cry. 14 2 The refrigerant that absorbs heat energy is used to exchange water with heat; the main source is to make the original heart in the raw water chamber 141: "I am sad because of heat." The heat generated by the exchanger 14 3 is so high as to generate water vapor, and then the steps of the vacuum low-temperature steaming hall are completed; Only a small amount of power can be used to make the heat exchanger "3 hair ^ ^ use a small amount of heat energy provided by the heat exchanger 143 to achieve direct air ::?, And the heat exchanger 14 3 through the condenser 12 through 疋To avoid its temperature being too high, it can be seen that it does not need to mention the heating device of M272961 sintering furnace to perform the distillation operation, so it can achieve the purpose of saving energy. In addition, the purpose of arranging an activated carbon 45 in the suction pipe 44 in this work is to make the water vapor towel produced after passing through the vacuum low-temperature steaming hall, and the odor or inorganic substances such as methane and chlorine are contained in the towel. To achieve the pure water obtained is extremely pure drinking water. And a, the refrigerant circulating continuously in the refrigerant tube circuit 3 of the ice phase unit 2 can keep the condenser i 2, the first and second evaporators 2 ii, 22 2 at a predetermined low-m evaporator 21 at all times: After the 1 ring fan 2 1 2 'can increase the effect of hot and cold convection; $, because the refrigerant pipe circuit 3 during the assembly process, there will be some water and gas remaining in the refrigerant, so set 2-can remove the refrigerant Water vapor drying cylinder 31, and two hair dryers 2 1 and 2 2 1 respectively can expand and expand the refrigerant, reduce the density of the refrigerant, and expand the valve 3 2 which can absorb more thermal energy. After the refrigerant is processed by the above-mentioned money W1 and bulking 3 2, the cold shot will be circulated in the refrigerant tube circuit 3 through the first and second hair dryers 2 1 1 and 2 2 1 again. another. In other words, § Song Guan to 14 after making water for a period of time, because it will: the quality is left in the distillation chamber 14 ', it will increase the impurity level of the raw water in the distillation chamber i 4 to a certain extent After that, it must be ruled out. When you want to change the water, you must first turn on i 4 6 to release the vacuum state of steamed rice i 4 and then open the drain valve 1 4 9 to allow the raw water to be discharged smoothly. Sequentially close the drain valve i 4 9 and the pressure valve 丄, and the steamer 1 4 can re-introduce the original water. The water 1 and the vacuum generator 4 3 will also re-air the air in the distillation chamber 丄 4 Pumping 13 M272961
除,使其回復成真空狀態者D 綜上所述,誠可見本案所為「真空低溫造水冰箱 設計’ 4係出於前所未見之首創應用,其構成誠簡每 用,且已符合於實用及進步性,亦屬為—合理之新型創^ ;惟此,僅依法提出新型專利申請,懇折釣局 並賜准專利為禱,實感德便。 。心u 4 ’ • 【圖式簡單說明】 第一圖為本創作組成構件之平面佈設圖。 【主要元件符號說明】 主機........1 冷凝器......12 洛名留室·.....14 鲁純水室.....14 2 水位開關· · · · 1 4 4 - 下隔板· · · · 1 4 1 2 •洩壓閥· · · · 1 4 6 進水閥· · · · · 1 4 8 冰箱單元·.....2 第—蒸發器···211 冷凍室······ 2 2 壓縮機· · · •••11 風扇· · · · •••13 原水室··. ••141 熱交換器·· ••143 上隔板··· •14 11 凝結器· · · ••145 壓力開關.· ••147 排水閥· · · ••149 冷藏室· ·. •••21 循環風扇·· *•212 第二蒸發器· ••221 M272961 儲水筒......23 出水開關 水位開關· · · · 2 3 2 通氣孔 冷媒管迴路.....3 乾燥筒 膨脹閥......3 2 水管迴路 水泵.......4 1 過濾、網· 真空產生器· · · · 4 3 汲水管 活性碳······ 4 5 逆止閥·In addition, the person who restored it to a vacuum state D. In summary, it is clear that the case for the "Vacuum Low Temperature Water Refrigerator Design" 4 is a first-of-its-kind application that has never been seen before. Its composition is simple and simple, and has been Practicality and advancement are also—reasonable new innovations; however, only new-type patent applications are filed in accordance with the law, and the fisheries bureau is awarded and the patent is granted as a prayer, and the sense of morality is convenient. Mind u 4 '• [Schematic simple Explanation] The first picture is the plan layout of the components of the creation. [Explanation of the symbols of the main components] Main machine ........ 1 Condenser ... 12 Luoming Liu Room ..... 14 Lu pure water chamber ..... 14 2 Water Level Switch · · 1 4 8 Refrigerator unit ······ 2nd—Evaporator ··· 211 Freezer ····· 2 2 Compressor · · · • •• 11 Fans · · · · • • • 13 Raw water room .. •• 141 Heat exchanger .. •• 143 Upper partition .. • 14 11 Condenser. • • • 145 Pressure switch. • • 147 Drain valve. · ·. •••twenty one Circulating fan ···· 212 Second evaporator ··· 221 M272961 Water storage tank ... 23 Water outlet switch Water level switch ···· 2 3 2 Ventilation hole refrigerant tube circuit ... 3 Drying tube expansion Valve ... 3 2 Water pipe circuit pump ... 4 1 Filter, net · Vacuum generator ··· 4 3 Suction tube activated carbon ····· 4 5 Check valve ·