CN2169348Y - Multistage drinking device - Google Patents

Abstract

The utility model relates to a multistage water drinking device, which belongs to a beverage making device. The multistage drinking device is composed of a boiled water groove, an unboiled water groove, a warm water groove and a cold water groove. The grooves are connected through a double-layer quickly freezing pipe. A leaf-shaped heat sink is welded on a quickly freezing pipe body. The heat and the temperature of the exterior of the pipe body are dispersed and reduced by a minitype fan. The middle of the outer side of the groove body of the cold water groove is provided with a metal waistband which is connected with the cold piece of a cold and hot semiconductor to accelerate the cooling of the water. A foaming heat insulating object is coated and sealed at the exterior of the groove body of the cold water groove. Thus, the utility model can meet the multistage water drinking need as well as can save energy, be used conveniently and not pollute environment.

Description

Multistage drinking device

The utility model relates to a kind of beverage maker, is specially adapted to behind the water boil, through cooling step by step, can obtain the water fountain of boiling water, warm water, cold water, frozen water.

Environmental pollution at present is serious day by day, and pollution of waterhead is more outstanding, makes people can't drink unboiled water, and general household water drinking device all is to drink after the boiling water cooling.The method that adopts is: behind the temperature state, be cooled to low-temperature condition with compressor again, yet the capacity of compressor and power are all very big during boiling water is reduced to, unsuitable family uses, moreover the noise of compressor, the cold coal that reaches in the compressor easily produces CFCs, all can cause the pollution of environment.

Other method is: after boiling water is reduced to middle temperature state, be cooled to low temperature with cold and hot wafer again, warm water is directly made frozen water, cause the load of wafer excessive, reduced the result of use of wafer, can't frozen water without interruption, the frozen water groove does not have heat-proof device in addition, the heat that causes frozen water groove and cold and hot wafer to produce directly carries out heat exchange, has significantly reduced cooling effect.

The purpose of this utility model: be to provide that a kind of cooling velocity is fast, pollution-free, power saving, can boiling water without interruption, the multistage water fountain of warm water, cold water and frozen water.

The purpose of this utility model is achieved in that the boiling water groove can be heated into boiling water with unboiled water, and unboiled water groove and warm water tank are same cell bodies, and there is an interlayer centre, and the unboiled water groove is last; One metal waistband is arranged in the middle of the frozen water groove cell body outside, and this band and cold and hot semi-conductive cold are joined, and the foaming heat insulation object is encapsulated in outside the cell body; Between boiling water groove, warm water tank, frozen water groove, adopt double-deck fast cold pipe to connect respectively, the cold pipe of speed has circuitous hot instant heating, the cold characteristics of circuitous cold i.e. speed, when boiling water during by fast cold pipe, fast cold pipe i.e. heat absorption rapidly, on the cold body of speed lobate fin is housed, reach body and lay the small-sized fans heat radiation outward, lower the temperature step by step, reach quick cooling with this; In the frozen water groove, also connect the cold pipe of individual layer speed, in that being installed on the upper-lower position of cold and hot semiconductor hot side, the cold pipe of individual layer speed lobate fin is arranged on it, with small-sized fans heat radiation, can realize the needs of multistage drinking-water like this, again can boiling water without interruption, warm water, cold water and frozen water.

The utility model is owing to adopted fast cold pipe cooling, and cold and hot semiconductor is lowered the temperature, the small-sized fans heat radiation, and the foaming heat insulation object is sealed measures such as frozen water groove, do not re-use cooling compressor, so rapid cooling water continues to provide the needs of multistage drinking-water, energy savings, easy to use, free from environmental pollution.

The utility model is described further by following examples and accompanying drawing thereof.

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is another schematic perspective view of the present utility model.

Fig. 3 is partial view A of the present utility model.

Fig. 4 is partial view B of the present utility model.

Referring to Fig. 1,3,4, unboiled water groove 10 is a cell body with warm water tank 20, the unboiled water groove is last, and middle with interlayer 11 intervals, runner pipe 12 is in warm water tank 20, connect unboiled water groove 10 and boiling water groove 30, do cold and hot exchange when the unboiled water of unboiled water groove 10 through interlayer 11 and warm water, circulate after the pipe 12 cold and hot once more exchanges, enter boiling water groove 30 and boil, boiling water groove 30 is provided with boiling water outlet 33, and the supply user uses.

Boiling water groove 30 connects the rapid-result cold pipe 31 of pair of lamina and enters warm water tank 20, and boiling water absorbs heat rapidly after entering fast cold pipe 31, and borrow the fin 32 of device on the fast cold pipe 31 to conduct heat, and fast cold pipe rear installs a small-sized fans and rotates and dispel the heat, and finishes the cooling of first road, enters warm water tank 20; Warm water is done cold and hot exchange with unboiled water with interlayer 11 and runner pipe 12 again in groove, the auxiliary warm water temperature that reduces is installed warm water outlet 21 in warm water tank 20 lower ends, supply warm water; Warm water tank 20 connects the cold pipe 22 of pair of lamina speed to frozen water groove 40, after warm water enters fast cold pipe, absorb the warm water heat, and by fin 23 heat transfers of adorning on the cold pipe 22 of speed, rotate with small-sized fans equally and dispel the heat, reduce the temperature of warm water once more, finish the second road temperature-fall period, before the cold pipe 22 of speed enters frozen water groove 40, offer a delivery port 24 supply cold water; After cold water enters frozen water groove 40, on the metal waistband 46 that is looped around frozen water groove 40 outboard peripheries, engage a cold and hot semiconductor (refrigerating sheet) 41, because the huyashi-chuuka (cold chinese-style noodles) position of cold and hot semiconductor 41 engages with metal waistband 46, during energising, the huyashi-chuuka (cold chinese-style noodles) position produces cold effect, conduction directly makes the induction of frozen water cell wall turn cold on metal waistband 46, quickens the water for cooling of frozen water groove 40, the cold pipe 42 of individual layer speed is applied in the frozen water groove 40 simultaneously, the one end connects the huyashi-chuuka (cold chinese-style noodles) position of cold and hot semiconductor 41, because the effect that turns cold of the cold and hot semiconductor 41 of induction, fast cold pipe 42 turns cold rapidly, water in the directly auxiliary frozen water groove 40 quickens cooling, makes water be the frozen water state; Establish frozen water outlet 43 in frozen water groove 40 lower ends,, be welded with fin 45 on the cold and hot semiconductor 41 and conduct heat, rotate heat radiation with small fan again, finish the 3rd road temperature-fall period with supply chilled water.The outside of frozen water groove 40 is sealed cell body with the foaming heat insulation object again and is blocked and extraneous cold and hot the contact, to keep the temperature of frozen water in the groove.

Referring to another embodiment of Fig. 2: warm water tank 20 is S tubulose 50 and is arranged in the unboiled water groove 10, directly be connected with double-deck fast cold pipe 31,22, do comprehensive heat exchange with unboiled water, after S pipe 50 extends unboiled water groove 10, refill warm water outlet 21, with supply warm water, this scheme can be finished the demand that level Four supplies water equally.

Claims (2)

1, a kind of multistage water fountain, be by boiling water groove (30), there is an interlayer (11) centre, and unboiled water groove (10) is last, warm water tank (20) under same cell body and frozen water groove (40) form, lay a runner pipe (12) in the unboiled water groove (10) and run through by warm water tank (20) and enter in the boiling water groove (30); It is characterized in that: in boiling water groove (30), warm water tank (20), each connects with the fast cold pipe of bilayer (31), (22) between the frozen water groove (40), is welded with lobate fin (32), (23) on the cold pipe body of speed; Frozen water groove (40) cell body has an annular metal waistband (46) in the middle of the outside, and the huyashi-chuuka (cold chinese-style noodles) of this band and cold and hot semiconductor (41) joins, and connects an individual layer cold pipe of speed (42) to frozen water groove (40), and the foaming heat insulation object is encapsulated in outside the cell body; Individual layer speed cold pipe (44) is installed on the upper-lower position of cold and hot semiconductor (41) hot side, is welded with lobate diffusing pad (45) on it.

2, multistage water fountain according to claim 1 is characterized in that: warm water tank (20) is S tubulose (50) and is arranged in the unboiled water groove (10), directly is connected with double-deck fast cold pipe (31), (22).

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