TWM547650U - Improved water intake of ice water tank of water dispenser - Google Patents
Improved water intake of ice water tank of water dispenser Download PDFInfo
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- TWM547650U TWM547650U TW106206930U TW106206930U TWM547650U TW M547650 U TWM547650 U TW M547650U TW 106206930 U TW106206930 U TW 106206930U TW 106206930 U TW106206930 U TW 106206930U TW M547650 U TWM547650 U TW M547650U
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Description
本新型所涉及的是開飲機提供冰水的冰水膽的入水口,其通至冰水膽的內部處,開設與冰水膽內壁致冷面呈垂直方向的開口,讓引入的水直接朝向致冷的內壁進行更佳效率的熱交換之降溫效果。 The present invention relates to a water inlet of an ice water tank that provides a chilled water to a drinking machine, which opens to the inside of the ice water bladder, and opens an opening perpendicular to the cooling surface of the inner wall of the ice water bladder to allow the introduced water to be introduced. Directly toward the cooled inner wall for a more efficient heat exchange cooling effect.
一般冰溫熱開飲機上設有生水箱,再經由止逆閥接至加熱膽,進而又經另一止逆閥接至溫水膽,最後再接至冰水膽,其中該冰水膽目前大多係採冰水膽外表貼設安裝一致冷晶片,而致冷晶片外側則是作為晶片散熱之用,例如M287424專利所示,其中座即供安裝致冷晶片者,令中座呈冰冷的狀態,讓容納在其內的水可以在熱交換後而形成冰涼的水,又其上蓋側面設一可將溫水引入冰水膽內的入水口,而其底座的側面則設一可供出冰水的出水口,故當入水口引水入冰水膽內時,水會在中座的熱交換下變成冰冷的冰水,使由出水口處供出,可提供給使用者冰涼之水飲用。 Generally, a hot water boiling machine is provided with a raw water tank, and then connected to the heating bile via a check valve, and then connected to the warm water bile via another check valve, and finally connected to the ice water bladder, wherein the ice water bladder At present, most of the ice-cold water linings are affixed with a uniform cold wafer, and the outer side of the chilled wafer is used for heat dissipation of the wafer, as shown in the patent of M287424, in which the seat is used to install a cold chip, so that the middle seat is cold. The state allows the water contained therein to form cold water after heat exchange, and a water inlet for introducing warm water into the ice water bladder on the side of the upper cover, and an ice supply for the side of the base. The water outlet, so when the water inlet is diverted into the ice water bladder, the water will become cold ice water under the heat exchange of the middle seat, so that it can be supplied from the water outlet to provide the user with cold water to drink.
不過,讓冰水膽將水變成冰涼的作用,除了致冷晶片的功率大小、晶片散熱的優劣、與保冰隔熱材料等,都會影響對水致冷的成效外,還有另一項因素是常被忽略的,那就是入水口設置的因素,即目前已知的入水口都是沿著上蓋的頂壁呈管狀而直達至冰水膽的內部靠近中央處,進而在頂壁上再形成一朝向下(即冰水膽的軸向方向)的開口,這樣會導致 由入水口引入的水會由開口處直接向下流動,即引入的水是沿著冰水膽內部的中央處向下流,與中座的內壁之間稍有一段距離。 However, letting the ice water bladder turn the water into a cold, in addition to the power of the cold chip, the heat dissipation of the wafer, and the heat preservation material, it will affect the effectiveness of water cooling, and there is another factor. It is often overlooked, that is, the factor of the water inlet, that is, the currently known water inlet is tubular along the top wall of the upper cover and reaches the inside of the ice water bladder near the center, and then forms on the top wall. An opening that faces downward (ie, the axial direction of the ice water bladder), which causes The water introduced by the water inlet will flow downward directly from the opening, that is, the introduced water flows down the center of the inner portion of the ice water bladder, and a slight distance from the inner wall of the middle seat.
因此,當出水口供出冰水時,入水口也會隨之供入溫水或常溫水進入冰水膽內,但由於引入的水是直接由向下的開口處從冰水膽內部中央處向下流動,讓引入之水無法接近中座的內壁,造成引入之水無法進行有效率的熱交換作用,特別當出水口在供出冰水時,入水口也同時會隨之引入溫水或常溫水,此時引入的水無法在短時間內被致冷形成冰水前,就會隨著供出冰水時的水流而一起流出,導致飲用者會有忽冰忽熱的感覺、亦或供出的冰水溫度未達預期之冰涼的效果。 Therefore, when the water outlet supplies ice water, the water inlet will also be supplied with warm water or normal temperature water into the ice water bladder, but since the introduced water is directly from the downward opening to the inner center of the ice water bladder The downward flow makes the introduced water inaccessible to the inner wall of the middle seat, so that the introduced water cannot perform efficient heat exchange, especially when the water outlet is supplied with ice water, the water inlet also introduces warm water or normal temperature. Water, when the water introduced at this time cannot be cooled in a short time to form ice water, it will flow out together with the water flow when the ice water is supplied, causing the drinker to feel the heat or the heat. The ice water temperature did not reach the expected cool effect.
其次,為了讓冰水膽內降溫後的冰水,能夠持續保持冰涼的狀態,通常會令冰水膽容設在一外殼體中,並令外殼體與冰水膽之間灌入發泡劑而填滿於其間,即以發泡劑做為隔熱之材料,讓冰水膽內的冰水能夠保持冰冷,但由於使用發泡填充劑填入外殼體與冰水膽之間而硬化後,除了將整個冰水膽包覆住而無法再分離,並也使得與外殼體之間結合在一起,進而導致日後冰水膽發生損壞時,根本就無法進行維修的作業,而只能整顆更換造成消費者維修成本的負擔加重,同時也使得冰水膽的組裝作業需要額外的填充發泡劑及等待發泡劑硬化的時間,不僅增加生產成本也增加組裝的時間成本。 Secondly, in order to keep the ice water cooled in the ice water bladder, it can be kept in a cool state, usually the ice water is placed in an outer casing, and the foaming agent is poured between the outer shell and the ice water bladder. Filled with the foaming agent as the heat insulating material, the ice water in the ice water bladder can be kept cold, but after being hardened by filling the outer shell body with the ice water bladder using the foaming filler. In addition to covering the entire ice water bladder and can no longer be separated, and also combined with the outer casing, which leads to damage to the ice water bladder in the future, it is impossible to carry out maintenance work, but only the whole The burden of replacing the cost of repairing the consumer is increased, and the assembly operation of the ice water bladder requires additional time to fill the foaming agent and wait for the foaming agent to harden, which not only increases the production cost but also increases the time cost of assembly.
緣是,為了改善前述已知冰水膽之入水口引入的水,無法與致冷之面進行更有效的熱交換作用,不但會浪費電力、更無法讓供出之水達到預期的冰涼效果,故本新型提供冰水膽之入水口通至其內部之處,設 有呈與冰水膽內壁致冷面呈垂直的開口,讓引入的水流朝向內壁致冷面流動,再使水沿著內壁致冷面向下流,進而讓引入的水可在更短的時間內,達成預期的熱交換作用,使能供出更為穩定與冰涼的飲用冰水。 The reason is that in order to improve the water introduced by the aforementioned inlet of the known ice water bladder, it is impossible to carry out more effective heat exchange with the surface of the cold, which not only wastes electricity, but also prevents the supplied water from achieving the desired cooling effect. The present invention provides an inlet for the ice water bladder to the inside thereof, There is an opening perpendicular to the cooling surface of the inner wall of the ice water bladder, so that the introduced water flows toward the cooling surface of the inner wall, and then the water flows downward along the inner wall, so that the introduced water can be made shorter. In the time, the expected heat exchange effect is achieved, so that a more stable and cold drinking ice water can be supplied.
本新型解決其技術問題所採用的技術方案:是一中空的冰水膽上、下端一側分別設一入水口與一出水口,且該入水口通至冰水膽的內部之處設有與內壁呈垂直方向開設的開口。 The technical solution adopted by the novel to solve the technical problem is that a water inlet and a water outlet are respectively arranged on the upper and lower ends of a hollow ice water bladder, and the water inlet is connected to the interior of the ice water bladder. The inner wall has an opening that is opened in the vertical direction.
上述方案中,該冰水膽包括一致冷殼體的上、下端,分別接設一設置入水口的上蓋與一設置出水口的下殼體。 In the above solution, the ice water bladder comprises upper and lower ends of the uniform cold casing, and an upper cover provided with the water inlet and a lower casing provided with the water outlet are respectively connected.
上述方案中,該冰水膽是被包覆於由兩半殼體併合而成的一隔熱殼體內,該隔熱殼體是由隔熱材料一體成型而預製者。 In the above solution, the ice water bladder is covered in a heat insulating casing which is formed by combining two half shells, and the heat insulating shell is integrally formed by a heat insulating material and is prefabricated.
是以,透過上述本新型冰水膽上端之上蓋處所設的入水口通至內部的地方,開設之與冰水膽致冷內壁呈垂直的開口,讓水由入水口引入時,即朝向冰水膽內壁流動,並使水沿著內壁向下流,讓引入的水可獲得更佳的熱交換作用,且較能避免與供出之冰水混合而流出,令使用者可以獲得更佳效果的飲用冰水。 Therefore, through the water inlet provided at the upper end of the upper end of the ice water bladder, the opening to the interior of the ice water bladder is opened, and the water is opened by the water inlet, that is, toward the ice. The inner wall of the water bladder flows and the water flows down the inner wall, so that the introduced water can obtain better heat exchange, and can avoid mixing with the supplied ice water, so that the user can obtain better effects. Drinking ice water.
1‧‧‧隔熱殼體 1‧‧‧Insulated housing
2‧‧‧冰水膽 2‧‧‧Binged water
2A‧‧‧致冷殼體 2A‧‧‧ Refrigeration housing
2B‧‧‧上蓋 2B‧‧‧Upper cover
2C‧‧‧下殼體 2C‧‧‧ Lower case
2D‧‧‧密封墊圈 2D‧‧‧Sealing washer
20‧‧‧致冷晶片安裝面 20‧‧‧Cold wafer mounting surface
21‧‧‧入水口 21‧‧‧ water inlet
210‧‧‧開口 210‧‧‧ openings
22‧‧‧出水口 22‧‧‧Water outlet
23‧‧‧透氣孔 23‧‧‧ venting holes
下面結合附圖和實施例對本新型進一步說明。 The present invention will be further described below in conjunction with the accompanying drawings and embodiments.
圖1是本新型冰水膽包覆隔熱殼體時的立體示意圖。 1 is a perspective view of the ice water bladder coated with an insulated casing.
圖2是本新型冰水膽與隔熱殼體的分解立體示意圖。 2 is an exploded perspective view of the ice water bladder and the heat insulating casing of the present invention.
圖3是本新型冰水膽的立體分解示意圖。 3 is a perspective exploded view of the novel ice water bladder.
圖4是本新型冰水膽之上蓋的內面處立體示意圖。 4 is a perspective view of the inner surface of the upper cover of the novel ice water bladder.
圖5是本新型冰水膽由入水口處橫切的剖面示意圖。 Fig. 5 is a schematic cross-sectional view of the ice water bladder taken from the water inlet.
圖6是本新型冰水膽引入之水流流動示意圖。 Fig. 6 is a schematic view showing the flow of water introduced by the novel ice water bladder.
請參閱圖1至圖3所示,本新型開飲機的冰水膽2外面包覆著隔熱殼體1,該冰水膽2其內部係呈中空狀而可容納飲用之水,並令冰水膽2的上端旁側設一入水口21、頂端設一透氣孔23,再令冰水膽2的下端一側設一出水口22,同時又令冰水膽2的側面設一可供安裝致冷晶片的致冷晶片安裝面20。 Referring to FIG. 1 to FIG. 3, the outer surface of the ice water bladder 2 of the novel brewing machine is covered with an insulated casing 1 which is hollow inside and can accommodate drinking water and A water inlet 21 is arranged on the side of the upper end of the ice water bladder 2, a venting hole 23 is arranged at the top end, and a water outlet 22 is arranged on the lower end side of the ice water bladder 2, and at the same time, a side of the ice water bladder 2 is provided. A cooled wafer mounting surface 20 of the cooled wafer is mounted.
同時,上述的冰水膽2是包括由一設置有該致冷晶片安裝面20的致冷殼體2A上端,固定一設置該入水口21與透氣孔23的上蓋2B,以及一固定於致冷殼體2A下端而設置有該出水口22的下殼體2C,即由致冷殼體2A、上蓋2B與下殼體2C組成該冰水膽2,同時在致冷殼體2A與上蓋2B之間、致冷殼體2A與下殼體2C之間,設有防止洩漏的密封墊圈2D;且上述供安裝致冷晶片的致冷殼體2A,在安裝致冷晶片後即能令致冷殼體2A呈冰冷的狀態,進而令其內壁形成致冷面,使得引入冰水膽2內的水,可透過致冷殼體2A(亦即是為冰水膽2的內壁致冷面)進行熱交換,讓水被降溫呈冰冷的狀態後,再由出水口22處供出,進而提供給使用者的飲用。 Meanwhile, the above-mentioned ice water tank 2 includes an upper cover 2B of a refrigerating case 2A provided with the refrigerating chip mounting surface 20, an upper cover 2B for arranging the water inlet 21 and the vent hole 23, and a fixing to the cooling. The lower housing 2C of the housing 2A is provided with the water outlet 22, that is, the cooling housing 2A, the upper cover 2B and the lower housing 2C constitute the ice water tank 2, and at the same time, the cooling housing 2A and the upper cover 2B Between the refrigerating case 2A and the lower case 2C, a sealing gasket 2D for preventing leakage is provided; and the above-mentioned refrigerating case 2A for mounting the refrigerating chip can make the refrigerating case after mounting the refrigerating chip The body 2A is in an ice-cold state, and the inner wall thereof is formed into a cooling surface, so that the water introduced into the ice water tank 2 can pass through the cooling casing 2A (that is, the cooling surface of the inner wall of the ice water bladder 2). The heat exchange is performed to allow the water to be cooled and cooled, and then supplied from the water outlet 22 to provide the user with drinking.
更進一步的,該上蓋2B如圖4至圖6所示,其徑向(或橫向)設置的入水口21連通至其內部之處,再開設有與致冷殼體2A之內壁致冷面(亦即是為冰水膽2的內壁致冷面)呈垂直的對應兩開口210。 Further, as shown in FIG. 4 to FIG. 6, the upper cover 2B is connected to the inner side of the water inlet 21 provided in the radial direction (or lateral direction), and is further provided with a cooling surface of the inner wall of the refrigerating case 2A. (that is, for the inner surface of the ice water tank 2, the cooling surface) is perpendicular to the two openings 210.
故,當水由入水口21引入冰水膽2內的上端處時,水會由兩開口210處流入冰水膽2內,同時也令流入冰水膽2內的水流方向,是朝著致冷殼體2A的內壁致冷面(亦即冰水膽2的內壁致冷面)之垂直方向流動,不 會直接朝向冰水膽2之內部的中央向下流,進而讓引入之較為高溫的水,可以在流入的第一時間,就接近至致冷殼體2A的內壁致冷面,令流入的水能獲得更快的熱交換之降溫的效果。 Therefore, when water is introduced into the upper end of the ice water tank 2 from the water inlet 21, the water flows into the ice water tank 2 from the two openings 210, and also causes the water flow into the ice water tank 2 to be directed toward the water. The cold surface of the inner wall of the cold casing 2A (that is, the inner surface of the ice water tank 2) flows in a vertical direction, Directly flowing downward toward the center of the interior of the ice water tank 2, so that the relatively high temperature water introduced can approach the inner surface of the cooling shell 2A to cool the surface at the first time of the inflow, so that the inflowing water Can achieve a faster heat exchange cooling effect.
因此,在冰水膽2內的冰水由出水口22供出時,就會透過前述入水口21設置的手法,讓流入冰水膽2內之水的流動方向,是直接朝向著冰水膽2內壁致冷面的垂直方向流動,使得流入的水會再沿著冰水膽2內壁致冷面而向下流動,故除了可以增進流入之水的冰冷效果外,同時也較能避免尚未降至預定冰冷溫度之水,與即時供出之冰水混合,提供給飲用者一個更好、更穩定的冰涼飲水。 Therefore, when the ice water in the ice water tank 2 is supplied from the water outlet 22, the flow direction of the water flowing into the ice water tank 2 is directly directed toward the ice water bladder 2 by the means provided by the water inlet 21 described above. The vertical flow of the inner surface of the cold surface causes the inflowing water to flow downward along the cooling surface of the inner wall of the ice water bladder 2, so that in addition to improving the ice cooling effect of the inflowing water, it is also possible to avoid The water that has fallen to the predetermined ice-cold temperature is mixed with the instant ice water to provide the drinker with a better and more stable cold water.
其次,前述的隔熱殼體1是由兩半對剖、而可併合之一體成型的隔熱材料預製而成者,故該隔熱殼體1是可以任意併合固定在一起而將冰水膽2包覆起來,也可以令隔熱殼體1兩半分離開來,讓冰水膽2發生故障或損壞時,得以維修或僅更換冰水膽2即可,讓消費者的維修成本可以更為低廉,同時也使得冰水膽2的組裝更加快速,達到降低組裝成本的目的。 Next, the heat insulating casing 1 is prefabricated by a heat insulating material which is formed by splitting the two halves and can be combined and formed integrally with each other. Therefore, the heat insulating casing 1 can be arbitrarily fixed and fixed together to form an ice water bladder. 2Wrapped, the two parts of the insulated casing 1 can be separated, so that when the ice water tank 2 fails or is damaged, it can be repaired or only the ice water tank 2 can be replaced, so that the maintenance cost of the consumer can be more The low cost also makes the assembly of the ice water tank 2 faster, and the assembly cost is reduced.
2‧‧‧冰水膽 2‧‧‧Binged water
2A‧‧‧致冷殼體 2A‧‧‧ Refrigeration housing
2B‧‧‧上蓋 2B‧‧‧Upper cover
2C‧‧‧下殼體 2C‧‧‧ Lower case
21‧‧‧入水口 21‧‧‧ water inlet
210‧‧‧開口 210‧‧‧ openings
22‧‧‧出水口 22‧‧‧Water outlet
23‧‧‧透氣孔 23‧‧‧ venting holes
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TW106206930U TWM547650U (en) | 2017-05-16 | 2017-05-16 | Improved water intake of ice water tank of water dispenser |
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TW106206930U TWM547650U (en) | 2017-05-16 | 2017-05-16 | Improved water intake of ice water tank of water dispenser |
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