CN109008628A - Water dispenser and water source cooling device - Google Patents

Abstract

The present invention relates to a kind of water dispenser and water source cooling device, water source cooling device includes: heating mechanism, cold water storage cistern and heat exchange pipe fitting.Water source cooling device when in use, is installed in inside water dispenser by above-mentioned water source cooling device first.Water source is injected into cold water storage cistern first.A part of water source can import heating mechanism by water inlet pipe and be heated.Then, after heating mechanism becomes hot water, hot water can be discharged by outlet pipe at water source.Being wrapped in the heat exchange inside pipe fitting outside outlet pipe will do it circulating for cold water, at this point, hot water during outlet pipe internal flow, can exchange heat, to realize the cooling to hot water with the cold water of heat exchange inside pipe fitting.I.e. so that hot water from water dispenser without taking out, it will be able to be changed into cold boiled water water, improve the using effect of water dispenser and water source cooling device.

Description

Water dispenser and water source cooling device

Technical field

The present invention relates to the technical fields of water source processing, more particularly to a kind of water dispenser and water source cooling device.

Background technique

Traditionally, the water source in bucket is often heated into boiled water by water dispenser, then by boiled water be delivered in incubator into Row storage, thus after guaranteeing a period of time, the water flowed out from the drinker hot mouth of a river be still the higher hot water of temperature (70 °~ 90°).But this water dispenser can only carry out isothermal holding to the water source after heating, if desired drink cold boiled water water and (refer to that water passes through Cross after boiling, then allow a kind of obtained water of its natural cooling) hot water can only be allowed to take out from water dispenser, then carry out one The natural cooling of section time, to affect the using effect of water dispenser.

Summary of the invention

Based on this, it is necessary to provide a kind of water dispenser and water source cooling device, can be improved water dispenser drinks effect.

Its technical solution is as follows:

A kind of water source cooling device, comprising: heating mechanism and cold water storage cistern, the heating mechanism are equipped with water inlet pipe and water outlet Pipe, the water inlet pipe are connected with the cold water storage cistern；Exchange heat pipe fitting, and the heat exchange pipe fitting is located at the outside of the outlet pipe, and The both ends of the heat exchange pipe fitting are connected with the cold water storage cistern.

A kind of water dispenser, including the water source cooling device and installation casing, the water source cooling device are installed in described Inside installation casing.

Water source cooling device when in use, is installed in inside water dispenser by above-mentioned water source cooling device first.Then by water Cold water storage cistern is injected in source.A part of water source can import heating mechanism by water inlet pipe and be heated.Then, water source is by heating After mechanism becomes hot water, hot water can be discharged by outlet pipe.Being wrapped in the heat exchange inside pipe fitting outside outlet pipe will do it cold water Circulate, at this point, hot water is during outlet pipe internal flow, can and the cold water of heat exchange inside pipe fitting exchange heat, To realize the cooling to hot water.I.e. so that hot water from water dispenser without taking out, it will be able to be changed into cold boiled water water, improve The using effect of water dispenser and water source cooling device.

Technical solution is illustrated further below:

The heat exchange pipe fitting include heat exchange water inlet pipe, heat-exchanging spiral-coil and heat exchange outlet pipe, it is described heat exchange water inlet pipe one End is connected with the cold water storage cistern, and one end of the heat exchange outlet pipe is connected with the cold water storage cistern, and the heat-exchanging spiral-coil is set in The outside of the outlet pipe, and it is described heat exchange water inlet pipe the other end and it is described exchange heat outlet pipe the other end respectively with it is described The both ends of heat-exchanging spiral-coil are connected.

Water source cooling device further includes radiating piece, and the radiating piece is set in the outside of the heat exchange outlet pipe.

Water source cooling device further includes fan, and the fan is correspondingly arranged with the radiating piece.

Water source cooling device further includes water pump, and the water pump is installed on the heat exchange outlet pipe.

The outlet pipe includes that the first water outlet is in charge of, the second water outlet is in charge of and casing, first water outlet be in charge of with it is described Wherein one end of casing is connected, and the other end that first water outlet is in charge of is connected with the heating mechanism, and described second goes out moisture One end of pipe is connected with the other end of described sleeve pipe, and the first mounting hole and the second mounting hole are offered in described sleeve pipe, described Heat-exchanging spiral-coil is installed in inside described sleeve pipe, and the heat exchange water inlet pipe passes through first mounting hole and the heat-exchanging spiral-coil It is connected, the heat exchange outlet pipe passes through second mounting hole and is connected with the heat-exchanging spiral-coil.

Water source cooling device further includes the first temperature inductor and second temperature inductor, the first temperature inductor dress It is located on the cold water storage cistern, the second temperature inductor is installed on the outlet pipe, and second temperature inductor position In the one end of the outlet pipe far from the heating mechanism.

Water source cooling device further includes partition, and the partition is movably installed in inside the cold water storage cistern, and it is described every Plate and the temperature inductor are electrically connected, and external water pipe, the external water pipe and the heat exchange are additionally provided on the cold water storage cistern Water inlet pipe is respectively positioned on the same side of the partition, and the heat exchange outlet pipe is located at the other side of the partition.

A kind of water dispenser, including the water source cooling device and installation casing, the water source cooling device are installed in described Inside installation casing.

Water dispenser further includes incubator, and the water outlet of the incubator is protruded into the heating mechanism.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of water source cooling device described in an embodiment；

Fig. 2 is the partial structural diagram of water source cooling device described in an embodiment；

Fig. 3 is the partial structural diagram of water source cooling device described in another embodiment；

Fig. 4 is the partial structural diagram of water source cooling device described in another embodiment.

Description of symbols:

100, heating mechanism, 110, water inlet pipe, 120, outlet pipe, the 121, first water outlet are in charge of, and the 122, second water outlet is in charge of, 123, casing, the 124, first mounting hole, the 125, second mounting hole, 200, cold water storage cistern, 210, partition, the 220, first storage box, 230, the second storage box, 300, heat exchange pipe fitting, 310, heat exchange water inlet pipe, 320, heat-exchanging spiral-coil, 330, heat exchange outlet pipe, 340, Radiating piece, 350, fan, 360, water pump, 370, capillary, the 380, first water-supply-pipe, the 390, second water-supply-pipe, the 400, first temperature Spend inductor, 500, second temperature inductor.

Specific embodiment

To make the objectives, technical solutions, and advantages of the present invention more comprehensible, below in conjunction with attached drawing and specific embodiment party Formula, the present invention is further described in detail.It should be understood that the specific embodiments described herein are only to solve The present invention is released, and the scope of protection of the present invention is not limited.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", " right side " and similar statement for illustrative purposes only, are not meant to be the only embodiment.

Unless otherwise defined, all technical and scientific terms used herein and belong to technical field of the invention The normally understood meaning of technical staff is identical.Term as used herein in the specification of the present invention is intended merely to description tool The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term " and or " used herein includes one or more Any and all combinations of relevant listed item.

Heretofore described " first ", " second " do not represent specific quantity and sequence, are only used for the differentiation of title.

As shown in Figure 1, in one embodiment, a kind of water source cooling device, comprising: heating mechanism 100, cold water storage cistern 200 With heat exchange pipe fitting 300.The heating mechanism 100 is equipped with heating water inlet pipe 110 and outlet pipe 120, the heating water inlet pipe 110 It is connected with the cold water storage cistern 200.The heat exchange pipe fitting 300 is located at the outside of the outlet pipe 120, and the heat exchange pipe fitting 300 both ends are connected with the cold water storage cistern 200.Specifically, the heating mechanism 100 is heater.The heater body Equipped with water tank, and the water tank is the hot box of stainless steel.I.e. water source enters heater body and is heated, generated Hot water can effectively be saved inside hot box.More specifically, the heat exchange pipe fitting 300 is plastic tube, i.e., the described modeling Shape pipe is wrapped in the outside of the outlet pipe 120, with the increase of winding circle number of the shaping conduit on outlet pipe 120, so that institute It states heat exchange pipe fitting 300 and the heat exchange area of outlet pipe 120 also constantly increases.Since cold water storage cistern 200 is directly to external cold water It is stored.Therefore, heat exchange pipe fitting 300 with cold water storage cistern 200 by being connected, so that heat exchange pipe fitting 300 is changed with outlet pipe 120 When hot, can guarantee exchange heat pipe fitting 300 inside be always flow circuit cold water, changed to efficiently avoid cold water with hot water Temperature increases after heat.This be only in one embodiment, such as: in order to improve heat transfer effect, can also heat exchange pipe fitting Stainless steel fin is added between 300 and outlet pipe 120, since the radiating efficiency of metal is higher, can be improved heat exchanger tube Heat exchange efficiency between part 300 and outlet pipe 120.

Water source cooling device when in use, is installed in inside water dispenser by above-mentioned water source cooling device first.Then by water Cold water storage cistern 200 is injected in source.A part of water source can import heating mechanism 100 by water inlet pipe 110 and be heated.Then, water After heating mechanism 100 becomes hot water, hot water can be discharged by outlet pipe 120 in source.The heat exchange being wrapped in outside outlet pipe 120 It will do it circulating for cold water inside pipe fitting 300, at this point, hot water during 120 internal flow of outlet pipe, understands and heat exchange Cold water inside pipe fitting 300 exchanges heat, to realize the cooling to hot water.I.e. so that hot water from water dispenser without taking Out, it will be able to be changed into cold boiled water water, improve the using effect of water dispenser and water source cooling device.

In one embodiment, the heat exchange pipe fitting 300 includes heat exchange water inlet pipe 310, heat-exchanging spiral-coil 320 and exchanges heat out Water pipe 330.It is described heat exchange water inlet pipe 310 one end be connected with the cold water storage cistern 200, it is described exchange heat outlet pipe 330 one end and The cold water storage cistern 200 is connected, and the heat-exchanging spiral-coil 320 is set in the outside of the outlet pipe 120, and the heat exchange water inlet pipe 310 other end is connected with the both ends of the heat-exchanging spiral-coil 320 respectively with the other end of the heat exchange outlet pipe 330.Tool Body, in the present embodiment, the heat exchange water inlet pipe 310, heat-exchanging spiral-coil 320 and heat exchange outlet pipe 330 are integrally formed. Since the thickness or caliber of heat exchange pipe fitting 300 are different, the heat exchange efficiency of hot water and cold water can be impacted.So according to Actual operating condition can reasonably increase or decrease the circle number of heat-exchanging spiral-coil 320.This is only one of embodiment, example Such as: the short transverse (referring to from one end of heat-exchanging spiral-coil to the other end) along the heat-exchanging spiral-coil successively opens up multiple heat exchange Mouthful, and piston is equipped on the heat exchange mouth.Since what is often stored in the cold water storage cistern 200 is all normal-temperature water, with The temperature change of weather can also affect to the water temperature of normal-temperature water.Therefore, cold at this time when outdoor temperature is higher The water temperature at 200 inside water source of water tank is opposite to be increased, at this point, in order to reach preset heat transfer effect, it can be by the outlet pipe 330 that exchanges heat With the link position of helix tube.More appropriate heat exchange mouth is selected to be attached.When heat exchange outlet pipe 330 protrudes into the heat exchange After mouthful, heat exchange pipe fitting 300 and the heat exchange area of outlet pipe 120 change.I.e. above-mentioned this embodiment can pass through change The heat exchange area of heat exchange pipe fitting 300 and outlet pipe 120, the variation of 200 water temperature of cold water storage cistern is coped with this, ensure that water source cooling dress The heat transfer effect set.

In one embodiment, water source cooling device further includes radiating piece 340.The radiating piece 340 is set in described change The outside of hot outlet pipe 330.Water source cooling device further includes fan 350.The fan 350 is corresponding with the radiating piece 340 to be set It sets.Water source cooling device further includes water pump 360.The water pump 360 is installed on the heat exchange outlet pipe 330.Specifically, described Radiating piece 340 is metal fin or heat dissipation metal set.According to the actual situation, in order to further increase the heat exchange of cold water and hot water Efficiency can also add hot-swappable fans 350 in heat exchange pipe fitting 300 and 120 attachment of outlet pipe.More specifically, 360, the water pump In the heat exchange outlet pipe 330 close to one end of the cold water storage cistern 200, to guarantee that the water source inside heat exchange pipe fitting 300 can Heat-exchanging spiral-coil 320 is flowed through under the drive of water pump 360.In the present embodiment, water source passes through first under the drive of water pump 360 It crosses heat exchange water inlet pipe 310 and enters heat-exchanging spiral-coil 320, then enter heat exchange outlet pipe 330 using heat-exchanging spiral-coil 320, most Enter cold water storage cistern 200 by the radiating piece 340 on heat exchange outlet pipe 330 afterwards.This is only one of embodiment, such as: institute It states water pump 360 to be installed on the heat exchange outlet pipe 330, and the water pump 360 is located at the radiating piece 340 and the heat exchange spiral shell Between coil 320.On the one hand above-mentioned this mounting means can guarantee that the water source inside heat exchange pipe fitting 300 can flow fast through Heat-exchanging spiral-coil 320, on the other hand, water source flow velocity after water pump 360 can reduce accordingly, so that water source has more Time is acted on radiating piece 340, improves the heat dissipation effect of radiating piece 340.

In one embodiment, it is being changed by adding water pump 360 on heat exchange outlet pipe 330 and can effectively accelerate water source Circulation between heat pipe part 300 and cold water storage cistern 200, meanwhile, it can also be effectively prevented from water source and itself be risen when exchanging heat with hot water Temperature is too fast.

As depicted in figs. 1 and 2, in one embodiment, the outlet pipe 120 includes that the first water outlet is in charge of 121, second and is gone out Moisture pipe 122 and casing 123.First water outlet is in charge of 121 and is connected with wherein one end of described sleeve pipe 123, and described first goes out The other end of moisture pipe 121 is connected with the heating mechanism 100, and 122 one end and described sleeve pipe is in charge of in second water outlet 123 other end is connected, and the first mounting hole 124 and the second mounting hole 125, the heat exchange spiral are offered in described sleeve pipe 123 Pipe 320 is installed in inside described sleeve pipe 123, and the heat exchange water inlet pipe 310 passes through first mounting hole 124 and the heat exchange spiral shell Coil 320 is connected, and the heat exchange outlet pipe 330 passes through second mounting hole 125 and is connected with the heat-exchanging spiral-coil 320.Tool Body, in the present embodiment, the heat-exchanging spiral-coil 320 is set in the inside of the outlet pipe 120 by described sleeve pipe 123. After water source is heated to be hot water by heating mechanism 100, hot water is in charge of 121 sleeve pipes 123 by the first water outlet, at this point, hot water meeting It exchanges heat in 123 inside of casing with the cold water inside heat-exchanging spiral-coil 320.Above-mentioned this embodiment so that hot water with it is cold Only there was only the tube wall of one layer of heat-exchanging spiral-coil 320 between water, pipe fitting 300 is set in outside outlet pipe 120 compared to that will exchange heat. This embodiment has further furthered the distance between cold water and hot water, to improve the heat exchange efficiency of cold water and hot water.

As shown in Figure 1, in one embodiment, water source cooling device further includes the first temperature inductor 400 and the second temperature Spend inductor 500.First temperature inductor 400 is installed on the cold water storage cistern 200, the second temperature inductor 500 It is installed on the outlet pipe 120, and the second temperature inductor 500 is located at the outlet pipe 120 far from the heater One end of structure 100.Specifically, in the present embodiment, since the cold water and hot water carry out after repeatedly exchanging heat, the temperature meeting of cold water It is corresponding to increase.Therefore, in order to guarantee cold water for the cooling effect of hot water.The first temperature sense is added on cold water storage cistern 200 Device 400 realizes the monitoring to 200 water temperature inside of cold water storage cistern with this.When 200 water temperature inside of cold water storage cistern is higher than room temperature.Drink A part of normal-temperature water in external bucket can be injected cold water storage cistern 200 by water dispenser, to realize the cooling for cold water storage cistern 200.More Specifically, the second temperature inductor 500 is installed in the one end of the outlet pipe 120 far from the heating mechanism 100.It is i.e. logical Water source after crossing 500 heat exchanging of second temperature inductor carries out temperature detection.In the outlet pipe 120 far from the heating mechanism 100 one end is additionally provided with valve (not marking), and the valve and the second temperature inductor 500 are electrically connected.Work as hot water When reaching default water temperature after heat exchange, the water source can pass sequentially through second temperature inductor 500 and valve flows out.Work as heat When water not up to presets water temperature after heat exchange, the second temperature inductor 500 passes through the outflow that control valve obstructs water source. The cold water that this part water source will continue to and circulate at this time exchanges heat, until the temperature at water source reaches preset temperature.Finally It passes sequentially through second temperature inductor 500 and valve flows out.

As shown in figures 1 and 3, in one embodiment, the heat exchange pipe fitting 300 further includes the first water-supply-pipe 380, second Water-supply-pipe 390 and more capillaries 370.Corresponding with the capillary 370 multiple are offered on first water-supply-pipe 380 One pore (not shown) offers multiple second pores corresponding with the capillary 370 on second water-supply-pipe 390 (not shown).First water-supply-pipe 380 is spaced setting with second water-supply-pipe 390 inside described sleeve pipe 123, and described Heat exchange water inlet pipe 310 is connected by first mounting hole 124 with first water-supply-pipe 380.The heat exchange outlet pipe 330 It is connected by second mounting hole 125 with second water-supply-pipe 390.The more capillaries 370 are arranged at intervals on described Between first water-supply-pipe 380 and second water-supply-pipe 390.Specifically, in the present embodiment, cold water is by heat exchange water inlet pipe 310 enter the first water-supply-pipe 380, are then imported in more capillaries 370 by the first water-supply-pipe 380, are finally successively passed through again Second water-supply-pipe 390 flows to cold water storage cistern 200 with heat exchange outlet pipe 330.In above-mentioned whole process, cold water passes through 370 shape of capillary At multiple independent cold water columns, the cold water column can come into full contact with the hot water inside casing 123, to realize cold water With the heat exchange of hot water.

As shown in Figure 1 and Figure 4, in one embodiment, water source cooling device further includes partition 210.The partition 210 can It is actively installed in inside the cold water storage cistern 200, and the partition 210 and the temperature inductor are electrically connected, the cold water External water pipe is additionally provided on case 200, the external water pipe is respectively positioned on the same of the partition 210 with the heat exchange water inlet pipe 310 Side, the heat exchange outlet pipe 330 are located at the other side of the partition 210.Specifically, in the present embodiment, the cold water storage cistern 200 On be provided with driving motor, the driving motor is connected with the partition 210, the driving motor and temperature inductor electricity Property connection.When temperature inside the cold water storage cistern 200 is higher than room temperature, the partition 210 carries out inside the cold water storage cistern 200 Rotation, to accelerate the cooling of cold water.More specifically, when the partition 210 is static, every side of the partition 210 It corresponds and contradicts with each inner sidewall of the cold water storage cistern 200, so that cold water storage cistern 200 can be divided by partition 210 It is divided into two mutually independent first storage boxes 220 and the second storage box 230.In view of heat exchange pipe fitting 300 and outlet pipe 120 into After row heat exchange, the cold water temperature inside the pipe fitting 300 that exchanges heat can increase accordingly.Therefore, by the heat exchange water inlet pipe of pipe fitting 300 that exchanges heat 310 are installed on first storage box 220, and the heat exchange outlet pipe 330 for the pipe fitting 300 that exchanges heat is installed in second storage box On 230.What above-mentioned this embodiment made 220 internal reservoir of the first storage box is entirely the cold water that does not exchange heat, and described second What storage box 230 stored is the cold water after heat exchange heating.Therefore, above-mentioned this embodiment ensure that every time by heat exchange The cold water that water inlet pipe 310 flows out is the cold water for being not affected by heat exchange and influencing, to ensure that heat exchange the changing for hot water of pipe fitting 300 The thermal efficiency.

Further, when the cold water surplus inside first storage box 220 is less, the adjustable partition 210 Until first storage box 220 is interconnected with second storage box 230, the water source of the second storage box 230 can be to fall Form enter the first storage box 220.Water source can radiate to water source during falling, to ensure that heat exchanger tube Heat transfer effect of the part 300 to hot water.Further, in originally implementing, the external water pipe of cold water storage cistern 200 is located at described first Storage box 220 is located near the heat exchange water inlet pipe 310.This design method of the present embodiment enables to have just enter into cold The water source of water tank 200 is directly over heat exchange pipe fitting 300 and hot water carries out heat exchange.

In one embodiment, a kind of water dispenser, including water source cooling device described in above-mentioned any one embodiment and peace Vanning body.Water dispenser further includes incubator (not shown).The water outlet of the incubator is protruded into the heating mechanism 100.Institute Water source cooling device is stated to be installed in inside the installation casing.Specifically, in the present embodiment, the water dispenser is internally provided with Cold water storage cistern 200 and incubator.Incubator is connected to heating mechanism 100 by conduit, heating mechanism 100 heats at this time Hot water a part can exchange heat by heat exchange water inlet pipe 310, and another hot water can enter incubator by conduit.It is cold when needing When water, the water source of outer tank can be directly over inner conduit outflow by water dispenser.When needing warm water, by outer tank Water source is injected into water source cooling device, and after the processing of water source cooling device, warm water can be obtained.More specifically, when needing When hot water, water dispenser directly passes through internal incubator and exports hot water.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

The embodiments described above only express several embodiments of the present invention, and the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to protection of the invention Range.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (10)

1. a kind of water source cooling device characterized by comprising

Heating mechanism and cold water storage cistern, the heating mechanism are equipped with water inlet pipe and outlet pipe, the water inlet pipe and the cold water storage cistern It is connected；

Exchange heat pipe fitting, and the heat exchange pipe fitting is located at the outside of the outlet pipe, and the both ends of the heat exchange pipe fitting with it is described cold Water tank is connected.

2. water source cooling device according to claim 1, which is characterized in that the heat exchange pipe fitting include heat exchange water inlet pipe, One end of heat-exchanging spiral-coil and heat exchange outlet pipe, the heat exchange water inlet pipe is connected with the cold water storage cistern, the heat exchange outlet pipe One end is connected with the cold water storage cistern, and the heat-exchanging spiral-coil is set in the outside of the outlet pipe, and the water inlet pipe that exchanges heat The other end is connected with the both ends of the heat-exchanging spiral-coil respectively with the other end of the heat exchange outlet pipe.

3. water source cooling device according to claim 2, which is characterized in that further include radiating piece, the radiating piece is arranged In the outside of the heat exchange outlet pipe.

4. water source cooling device according to claim 3, which is characterized in that further include fan, the fan is dissipated with described Warmware is correspondingly arranged.

5. water source cooling device according to claim 2, which is characterized in that further include water pump, the water pump is installed in institute It states on heat exchange outlet pipe.

6. water source cooling device according to claim 2, which is characterized in that the outlet pipe include first water outlet be in charge of, Second water outlet is in charge of and casing, and first water outlet is in charge of to be connected with wherein one end of described sleeve pipe, and first water outlet is in charge of The other end be connected with the heating mechanism, one end for being in charge of of second water outlet is connected with the other end of described sleeve pipe, institute It states and offers the first mounting hole and the second mounting hole on casing, the heat-exchanging spiral-coil is installed in inside described sleeve pipe, described to change Hot water inlet pipe passes through first mounting hole and is connected with the heat-exchanging spiral-coil, and the heat exchange outlet pipe passes through second installation Hole is connected with the heat-exchanging spiral-coil.

7. water source cooling device according to claim 2, which is characterized in that further include the first temperature inductor and the second temperature Spend inductor, first temperature inductor is installed on the cold water storage cistern, the second temperature inductor be installed in it is described go out On water pipe, and the second temperature inductor is located at the one end of the outlet pipe far from the heating mechanism.

8. water source cooling device according to claim 7, which is characterized in that further include partition, the partition is movably It is installed in inside the cold water storage cistern, and the partition and the temperature inductor are electrically connected, is additionally provided on the cold water storage cistern outer Water receiving pipe, the external water pipe and the heat exchange water inlet pipe are respectively positioned on the same side of the partition, and the heat exchange outlet pipe is located at The other side of the partition.

9. a kind of water dispenser, including water source cooling device and installation casing described in claim 1 to 8 any one, the water Source cooling device is installed in inside the installation casing.

10. water dispenser according to claim 9, which is characterized in that further include incubator, the water outlet of the incubator is stretched Enter in the heating mechanism.