CN109419362A - Drinking water dispenser - Google Patents

Abstract

The present invention relates to drinking water dispensers, such as water purifier with cooling recirculation system etc., and drinking water dispenser of the invention includes: cold water tank, and lower part is stored with cold water and limits ice-making compartment, and the ice-making compartment is the space being integrally connected to；Ice making unit, is arranged in the side on the top of the ice-making compartment, and is used to prepare ice；Position more top than the cold water storage space of the ice-making compartment and than the ice making unit on the lower is arranged in ice bank, and for storing the ice prepared by ice making unit；The other side for avoiding the side equipped with ice making unit on the top of the ice-making compartment is arranged in carbonic acid water pot, and for storing carbonated water；And heat-barrier material, surround the outside of the ice-making compartment.Drinking water dispenser according to the present invention can not only supply carbonated water, can also supply cold water or even ice, so as to reducing plant bulk, reducing manufacturing cost and improving cooling efficiency.

Description

Drinking water dispenser

Technical field

The present invention relates to drinking water dispensers, more particularly at least provided by having cooling recirculation system cold water and The drinking water dispenser of carbonated water functions of physical supply.

Background technique

As drinking water dispenser, for example, have employ filter to the purification raw waters such as tap water after supplied to user Water purifier or oriented user supply the devices such as the chilled and hot water apparatus of drinking water such as mineral water.

As this drinking water dispenser, it is known that have: prepared by having cooling recirculation system and/or heater The drinking water dispenser of ice, cold water and/or hot water to be supplied；Or it is also equipped with carbonated water supply function on this basis The drinking water dispenser of energy, the carbonated water are made of carbonic acid gas is dissolved in the water.

Since the solubility of carbonic acid gas is increased with the reduction of temperature or the raising of pressure, it is therefore desirable to utilize cold But the circulatory system cools down carbonic acid water pot, for example, in (the publication 10-2015-0039949 public affairs of patent document 1 Report) or patent document 2 (granted patent 10-0487816 bulletin) in disclose the following contents, that is, with coolant conduits (system Cryogen flow duct) i.e. evaporator surrounds the outer peripheral surface of cold water tank and carbonic acid water pot, and by the coolant conduits come the supply system Cryogen, to be cooled down to cold water tank and carbonic acid water pot.

Although in addition, passing through cooling recirculation system not specifically mentioned in documents 1 or documents 2 It carries out cooling cold water tank and carbonic acid water pot, needs to be surrounded them with heat-barrier material, to prevent cold airflow from going out and surface is sent out Raw moisture condensation.In the manufacturing process of drinking water dispenser, heat-insulated processing is not only complicated for operation, but also heat-barrier material still hinders The reason of reducing plant bulk.Especially, in patent document 1, cold water tank and carbonic acid water pot are separated from each other setting, therefore Need it is other for cooling down the coolant conduits (evaporator) of cold water tank and carbonic acid water pot respectively, but also need to they point It is not thermally insulated, to inevitably increase manufacturing cost and aggrandizement apparatus size.

In patent document 2, cold water tank connects setting with carbonic acid water pot, effectively forms as an evaporator, therefore energy It is enough that cold water tank and carbonic acid water pot are all once implemented into heat-insulated processing, so for compared to documents 1, in manufacturing cost and It is slightly advantageous to reduce plant bulk aspect.

But cooling documents 2 successively actually are carried out to cold water tank and carbonic acid water pot with an evaporator and Speech leads to the difference in terms of cooling performance caused by successively cooling down, so in cold water or carbon due to using this type of cooling In the case where being concentrated consumption either in sour water, it is difficult to preferentially be cooled down to by a side of concentration consumption.In cold water tank Or in the case that the capacity of carbonic acid water pot becomes larger, the difference on this cooling performance can become more significant.

Moreover, importantly, the water feeder of documents 1 and documents 2 does not have ice making function.Such as Fruit, it is desirable to so that the water feeder of documents 1 and documents 2 is had ice making function and provide carbonated water and cold water or even Ice then also needs the other heat-insulated processing for ice making unit and ice bank, therefore is more difficult to realize the reduction of plant bulk With the reduction of manufacturing cost.

Existing technical literature

Patent document

Patent document 1: publication 10-2015-0039949 bulletin

Patent document 2: granted patent 10-0487816 bulletin

Summary of the invention

The present invention proposed in view of above-mentioned problems of the prior art, and it is an object of the present invention to provide one kind can not only mention Cold water or even ice can also be provided for carbonated water, but also can be realized the reduction of plant bulk, the reduction of manufacturing cost and cold But the drinking water dispenser of the raising of efficiency.

In order to solve the above-mentioned technical problem, the inside of ice-making compartment is arranged in carbonic acid water pot by the present invention, once by ice making unit, Ice bank, cold water tank and carbonic acid water pot all implement heat-insulated processing.

That is, drinking water dispenser according to the present invention includes: cold water tank, lower part is stored with cold water and limits ice-making compartment, The ice-making compartment is the space being integrally connected to；Ice making unit, is arranged in the side on the top of the ice-making compartment, and is used to prepare ice； Ice bank is arranged in position more top than the cold water storage space of the ice-making compartment and than the ice making unit on the lower, and is used for Store the ice prepared by ice making unit；The side for avoiding being equipped with ice making unit on the top of the ice-making compartment is arranged in carbonic acid water pot The other side, and for storing carbonated water；And heat-barrier material, surround the outside of the ice-making compartment.

Preferably, the carbonic acid water pot obtains the cold water for being stored in the ice-making compartment lower part and obtains carbon from carbonic acid gas bucket Acid gas so that carbonated water be made, and the carbonated water is stored.

In addition, drinking water dispenser according to the present invention, is also equipped with circulating pump, the circulating pump will be stored in the system The cold water supply of icehouse lower part is to the ice making unit；The ice making unit obtains cold water by the circulating pump to prepare ice.

In addition, drinking water dispenser according to the present invention can also have following structure.I.e., comprising: evaporator is formed For multiple finger-like and there is refrigerant flowing in inside；And multiple nozzles, it is arranged around the evaporator, and the circulation will be passed through The cold water of pump supply is sprayed to the evaporator.

In this case, drinking water dispenser of the invention can also have the lower tilt setting in the ice making unit Guidance grid, the guidance grid guides the ice being detached from from the ice making unit into the ice bank, and will not made ice The cold water that portion is made ice and flows is guided to the lower part of the cold water tank.

In addition, the bottom surface of the ice bank is formed with hole, the cold water tank is dropped down into water droplet made of melting the ice.

In addition, the carbonic acid water pot is internally provided with circulating chilled water flow path, the circulating chilled water flow path acquisition is stored in The cold water of the ice-making compartment lower part simultaneously recycles the cold water.

Drinking water dispenser as described above can be water purifier, and the water purifier, which has, carried out the raw water of acquisition The filter house of filter, so as to supply by the purified water purification of the filter house, drinking water dispenser as described above can also To be that mineral water or raw water are cooled down and/or heated, to supply the chilled and hot water apparatus of ice, cold water and/or hot water.

Formation system is arranged in carbonic acid water pot by drinking water dispenser according to the present invention together with ice making unit and ice bank In the cold water tank of icehouse, once ice making unit, carbonic acid water pot, ice bank and cold water tank are all surrounded with heat-barrier material, thus not It needs to be additionally carried out heat-insulated processing to carbonic acid water pot, manufacturing cost can not only be reduced, additionally it is possible to reduce plant bulk.

Especially, in drinking water dispenser of the invention, the space that carbonic acid water pot is arranged is exactly to be vacated originally Space (dead space), therefore by being the installation space of carbonic acid water pot by the space utilization vacated, so as to maximum Utilize space to limit.

Further, since the inside of ice-making compartment has ice making unit, it is thus possible to low temperature is maintained on the whole, thus carbonic acid water pot The temperature that can be still maintained inside ice-making compartment, and then reduce unnecessary energy consumption, additionally it is possible to make cooling efficiency most Bigization.

Detailed description of the invention

Fig. 1 is the main component for showing the drinking water dispenser of one embodiment of the invention and the module of flow path connection structure Figure.

Fig. 2 is the perspective view shown after being decomposed the main component of the drinking water dispenser in Fig. 1.

Fig. 3 is to show to remove water purification pot and cold water from the main component i.e. tank assembly of the drinking water dispenser of Fig. 1 The perspective view of state after the lid of tank.

Fig. 4 is the sectional view for showing the section that the line A-A centered on the tank assembly in Fig. 3 along Fig. 3 sections.

Fig. 5 is the perspective view for showing the primary structure for the ice making unit for observing from below the assembly of the tank in Fig. 3 and Fig. 4.

Fig. 6 is the perspective view for showing the guidance grid inside the tank assembly that Fig. 3 and Fig. 4 is arranged in.

Description of symbols

Cabinet: 100 front covers: 110

Upper cover: 120 side covers: 130

Rear cover: 140 chassis: 150

Filter house: 200 pretreatment filters: 210

Main process task filter: 220 posttreatment filters: 230

Carbonic acid gas bucket: 250 tank assemblies: 300

Water purification pot: 310 cold water tanks: 320

Ice bank: 330 screw rods: 331

Motor: 332 carbonic acid water pots: 340

Circulating chilled water flow path: 342 hot-water cylinders: 350

Guide grid: 360 circulating pumps: 370

Ice making water supply line: 371 cooling water supply line: 372

Heat-barrier material: 380 ice making units: 400

Evaporator: 410 evaporators refer to portion: 411

Electric heater (deicing apparatus): 420 spray nozzle portions: 430

Spray nozzle: 431 compressors: 510

Condenser: 520 capillaries: 530

Liquid separator: 540 refrigerant lines: 551,552

Specific embodiment

In the following, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.It should be noted that this specification and Term or word used in claims cannot be construed to the meaning in common meaning or dictionary, should stand in inventor In order to use most preferred method illustrate the invention and can the concept to term carry out definition appropriate principle angle, It is explained with the meaning and concept that meet technical thought of the invention.Therefore, the embodiment and attached drawing recorded in this specification Shown in structure be only a preferred embodiment of the present invention, the technical idea of whole of the invention can not be represented, therefore answer It can have the various equivalents and variation that can replace these when applying for the present invention when understanding.

In attached drawing, for convenience, clearly it is illustrated, all parts or the component is formed by the ruler of privileged site Very little amplification is omitted or is briefly showed.Therefore, the size of all parts not can reflect actual size.Thinking to phase It, will be as omission in the case that the illustrating of the known function of pass or structure can inevitably obscure purport of the invention Explanation.

In addition, in the examples below, although drinking water dispenser is illustrated and is illustrated as water purifier, the water purifier With the filter house being filtered to the raw water of acquisition, so as to supply by the purified water of the filter house.

Fig. 1 is the main component for showing the drinking water dispenser of one embodiment of the invention and the module of flow path connection structure Figure, Fig. 2 are the perspective view shown after being decomposed the main component of the drinking water dispenser in Fig. 1, and Fig. 3 is to show from figure The solid of state after removing the lid of water purification pot and cold water tank in the main component of 1 drinking water dispenser, that is, tank assembly Figure, Fig. 4 are the sectional view for showing the section that the line A-A centered on the tank assembly in Fig. 3 along Fig. 3 sections, and Fig. 5 is to show Observe from below the perspective view of the primary structure of the ice making unit of the tank assembly in Fig. 3 and Fig. 4, Fig. 6 be show setting in Fig. 3 and The perspective view of guidance grid inside the tank assembly of Fig. 4.

Referring to FIG. 1 and FIG. 2, the water purifier (drinking water dispenser) of the present embodiment has cabinet 100, is mounted on cabinet Filter house 200, tank assembly 300 inside 100, the carbonic acid gas bucket 250 for being used to prepare carbonated water and cooling recirculation system etc.. Its detailed content will be illustrated later, here, tank assembly 300 includes the water purification pot for storing water purification (normal-temperature water) 310, for store the cold water tank 320 of water purification after cooling, the ice making unit 400 for preparing ice, for ice storage ice bank 330 with And the carbonic acid water pot 340 etc. for being used to prepare the water dissolved with carbonic acid gas i.e. carbonated water and storing the carbonated water.

Firstly, by being illustrated referring to Fig.1 to the water purifier and movement with the present embodiment of above structure.

The raw waters such as the tap water flowed by raw water inflow entrance 11 pass sequentially through pretreated after water leakage preventing valve 12 Filter 210, main process task filter 220 and posttreatment filter 230 are to remove impurity, foreign matter or bacterium etc., to become clean Water purification and be stored in water purification pot 310, wherein the water leakage preventing valve 12 be arranged in constitute cabinet 100 a part bottom The bottom surface of frame 150 and the inflow that raw water is cut off when gathering the water of specified amount or more on the bottom surface of chassis 150.

Here, pretreatment filters 210 can be filtered by deposition filter (sediment filter), preposition activated charcoal Device (pre-carbon filter) or their combination are constituted, and main process task filter 220 can be by reverse osmosis filter (reverse osmosis filter) or UF hollow fiber filter are constituted, and posttreatment filter 230 can be by postposition activity Carbon filter is constituted.When main process task filter 220 is made of reverse osmosis filter, during the filtration process, concentration has impurity Water can be by waste water drainage flow path 13 and discharge outlet 14 to being discharged outside water purifier.In addition, filter house 200 can also have conduct The sterilizing filter of a part of posttreatment filter 230, or can also have relative to posttreatment filter and independently set Sterilization module as the ultraviolet germicidal lamp set.

The water purification that the water purification being stored in water purification pot 310 can be used as room temperature is supplied by intake 113 to user.

In addition, cold water, ice and carbonated water can be prepared to when water purification is supplied to cold water tank 320, when being supplied to heat When water pot 350, hot water can be prepared to.

Specifically, firstly, the water purification for being fed into cold water tank 320 is fed into ice making unit 400 as ice making water.System Ice portion 400 has the evaporator 410 for constituting cooling recirculation system, so that the ice making water supplied from cold water tank 320 is prepared into Ice.Ice obtained in this way is transferred to the storage of ice bank 330, can be supplied by ice taking-out mouth 115 to user.

It is stored in cold water tank 320 in addition, being supplied to cold water tank 320 by ice prepared by ice making unit 400 and circulating Water so that the water inside cold water tank 320 to be made to ice-cold cold water, or makes ice not to be made and flowing water by ice making unit 400 It is recycled to cold water tank 320 and is stored in inside cold water tank 320 as cold water.The above content can be described in detail later.

The cold water being stored in cold water tank 320 can be supplied by intake 113 to user, and carbonated water can also be fed into Tank 340 is to be used to prepare carbonated water.That is, carbonic acid water pot 340 from the cold water that cold water tank 320 obtains by dissolving from carbonic acid gas The carbonic acid gas that body bucket 250 obtains, to prepare carbonated water and be stored.The carbonated water being stored in carbonic acid water pot 340 can It is supplied by carbonated water intake 114 to user.

Here, since solubility of the carbonic acid gas to water increases with the reduction of temperature or the raising of pressure, it is excellent Selection of land cools down carbonic acid water pot as far as possible to reach low temperature, and is compressed as far as possible to reach high pressure.For this purpose, at this In embodiment, using the cold water being stored in cold water tank 320 as carbonated water preparation water, and has circulating chilled water flow path 342, the circulating chilled water flow path 342 is used to make it be recycled to carbonated water as cold source in the cold water being stored in cold water tank 320 The inside of tank 340.Further, since being to obtain carbonic acid gas from the carbonic acid gas bucket 250 of high pressure, therefore carbonic acid water pot 340 is interior Portion is able to maintain that high pressure compared with other tanks naturally, so, when cold water is supplied to carbonic acid water pot as carbonic acid from cold water tank 320 When water preparation water, pump 15 also can be used.

In addition, from the supply of water purification pot 310 to the water purification (normal-temperature water) of hot-water cylinder 350 can by the inside of hot-water cylinder 350 or Heater (illustration omitted) heating being arranged on outside, and can be supplied by intake 113 to user.

Drainage flow path can be set on above-mentioned each tank as needed.That is, clear when being carried out to tank 310,320,340,350 When clean or sterilization or preparation do not use water purifier for a long time, need the water discharge inside tank 310,320,340,350, for this purpose, Drainage flow path 16,17,18 is connected on the bottom surface of cold water tank 320, carbonic acid water pot 340 and hot-water cylinder 350.Cold water tank 320 and carbon The drainage flow path 16,17 and above-mentioned waste water drainage flow path 13 of sour water tank 340 are connected together discharge outlet 14, hot-water cylinder 350 Drainage flow path 18 is connected to hot water discharge outlet 19, so as to by the water inside each tank to water purifier outside drain.In Fig. 1, Water purification pot 310 is not additionally provided with drainage flow path, this is because the water of water purification pot 310 is always drained via cold water tank 320. But naturally it is also possible to which drainage flow path is in addition arranged on water purification pot 310.

In addition, in above-mentioned tank, it is especially opposite to be either easy gassiness carbonic acid water pot in high pressure or high temperature 340 and hot-water cylinder 350 on can be equipped with air flow circuit.If gassy (air) in carbonic acid water pot 340 or hot-water line 350 and Cause internal pressure to be increased to required pressure or more, then when being fetched water by intake 113,114, can spray suddenly and burning makes Around user or splash to water purifier, it is therefore preferable that will be filled with suitably being discharged in the gas (air) on these tank tops.For this purpose, Air flow circuit 21,22 is arranged in the top of each tank 340,350 and connect with the top of water purification pot 310, so as to pass through air stream The gas (air) that road 21,22 is discharged can be discharged by the upper space of water purification pot 310.

In addition, above-mentioned each tank 310,320,340,350 can also have water level sensor or ice to sense with ice bank 330 Device, with the amount of water or ice for detecting storage, so that each tank is implemented or stop necessary operation, (water purification movement, ice making are dynamic Make, preparation carbonated water acts, supplies water etc. from any one tank to other tanks).In addition, carbonic acid gas bucket 250 or carbonic acid gas stream Road 23 can also have gas pressure sensor 24, for confirming the amount of the carbonic acid gas inside carbonic acid gas bucket 250, thus just In replacement carbonic acid gas bucket 250.

At the same time, it can according to need and various valves or pump be set on above-mentioned flow path.It is particularly preferred to opposite Valve for preventing reverse-flow is set on carbonic acid water pot 340 or hot-water cylinder 350 the supply carbonic acid gas of high pressure or the flow path 23,25,26 of water.

Then, referring to Fig. 2 to Fig. 6 to the structure of the water purifier of the present embodiment and each structure and all parts and they Configuration relation is described in detail.

Referring to Fig. 2, cabinet 100 includes front cover 110, upper cover 120, side cover 130, rear cover 140 and chassis 150, the above Each lid and chassis can be formed separately, can also be interconnected to form and be integrated with all or part of.

Front cover 110 is provided with operation button and LED light for showing water purifier state or display etc., and is formed with Water purification (normal-temperature water)/cold water/hot water intake, carbonated water intake, ice taking-out mouth.Rear cover 140 is provided with composition cooling cycle The condenser 520 of system is equipped with compressor 510, the filter house 200, carbonic acid gas for constituting cooling recirculation system in chassis 150 The various parts of the water purifiers such as bucket 250.In addition, could be formed with the grid that can be ventilated in side cover 130 and rear cover 140, So that the heat that condenser 520 generates is easy to distribute.

Carbonic acid gas bucket 250 of the inside filled with carbonic acid gas can be with required standard and to be able to carry out the mark of replacement Quasi- product.In addition, door (door) (illustration omitted) can be equipped in side cover 130, in order to neatly replace carbonic acid gas bucket 250。

As described above, tank assembly 300 includes water purification pot 310, cold water tank 320, ice making unit 400, ice bank 330, carbonic acid Water pot 340 etc..In addition, as shown in Figures 3 and 4, in tank assembly 300, ice making unit 400, ice bank 330 and carbonic acid water pot 340 are arranged in the inside of cold water tank 320, constitute the liquid separator 450, capillary 530 and refrigerant pipe of cooling recirculation system The outside of cold water tank 320 is arranged in a part on road 551,552.So, internal includes ice making unit 400, ice bank 330 and carbon The outside of the cold water tank 320 of sour water tank 340 and liquid separator 540, capillary 530 and the refrigeration other than water purification pot 310 A part of agent pipeline 551,552 is surrounded by heat-barrier material 380 together, and the heat-barrier material 380 is made of molded foam resin.

As described above, carbonic acid water pot 340 and ice making unit 400, ice bank 330 are arranged in together in cold water tank 320, and Once ice making unit 400, carbonic acid water pot 340, ice bank 330 and cold water tank 320 are all surrounded using heat-barrier material 380, thus It does not need to carry out carbonic acid water pot 340 additional heat-insulated processing, so that manufacturing cost can not only be reduced, additionally it is possible to reduce device Size.Further, since the inside of cold water tank 320 has ice making unit 400, it is thus possible to maintain on the whole such as 10 DEG C of low temperature with Under, thus, carbonic acid water pot 340 is still able to maintain that low temperature by 320 internal temperature of cold water tank, and then reduces unnecessary energy Source consumption.

The lower part of cold water tank 320 is stored with cold water 10, and the inside of the cold water tank 320 is configured with ice making unit 400, ice bank 330, grid 360, carbonic acid water pot 340 and circulating pump 370 are guided.The cold water tank 320 is the shared volume in tank assembly 300 Maximum component.The ice-making compartment being integrally connected to is formed by the space that cold water tank 320 limits.

In addition, as shown in Figures 2 and 3, the cooling recirculation system of the present embodiment includes: compressor 510, by refrigerant gas It is compressed into high temperature and pressure；Condenser 520 liquefies to the refrigerant gas after being compressed by the compressor；Capillary 530, as The pipeline of liquid refrigerant after being liquefied to the supply of evaporator 410 by condenser 520；Evaporator 410, by making liquid refrigerant It absorbs the heat of surrounding and evaporates to cool down the water of surrounding or ice making；Liquid separator 540, to the refrigerant evaporated in evaporator Liquid phase refrigerant contained in gas is separated, and enters compressor to avoid the liquid refrigerant.

In such cooling recirculation system, evaporator 410 is arranged in the ice-making compartment i.e. inside of cold water tank 320 and constitutes system Ice portion 400.The top side of ice-making compartment is arranged in ice making unit 400, and obtains cold water 10 from cold water tank 320 for use as ice making Ice 20 is prepared with water.For this purpose, ice making unit 400 includes that the ice making water supply line 371 of cold water 10 is obtained from circulating pump 370, Wherein, the circulating pump 370 is disposed adjacent with the bottom face of cold water tank 320.

In addition, U-shaped pipe and having refrigerant flowing in inside when overlook view evaporator 410.The evaporator of U-shaped pipe 410 one end is connected with the capillary 530, and the other end is connected by refrigerant line 551 with the liquid separator 540 It connects.In addition, as shown in figure 5, the downside of evaporator 410 is formed with multiple be downwardly projected and as being centrally generated ice or make water Cooling evaporator refers to portion 411.

In addition, electric heater 420 is disposed adjacent across electric wire 421 with the evaporator 410 of U-shaped pipe, the electric heater 420 be the deicing apparatus for being separated to the ice being made.So when electric heater 420 heats, the heat meeting of high temperature It is transmitted to evaporator and refers to portion 411, separate the ice 20 being made, deiced to realize.

In addition, as shown in figure 5, the downside of the evaporator 410 of the ice making unit 400 of the present embodiment, is provided with spray nozzle portion 430, spray nozzle portion 430 is used to refer to that the water for being used to prepare ice or cold water is sprayed in portion 411 to evaporator.As shown in figure 5, water spray spray The inside of mouth 430, which is formed with, to be made by circulating pump 370 and the water (cold water 10) that supplies via ice making water supply line 371 By flow path, the end of the flow path is connected with spray nozzle 431.Therefore, as shown in figure 5, passing through spray nozzle 431 to steaming When hair device refers to that portion 411 sprays water, by evaporator refer to portion 411 centered on generate ice 20 or encounter evaporator and refer to that the water in portion 411 is cold But the cold water tank 320 of downside is dropped onto, so that cold water 10 be made.

In addition, the downside in evaporator 410 and spray nozzle portion 430 is provided with towards the inclined guidance grid of ice bank 330 360.As shown in fig. 6, the gap 361 for preventing ice 20 from passing through is formed in guidance grid 360, so as to make 20 quilt of ice being detached from It guides to ice bank 330, and the water for not becoming ice and dripping is made to be directed to cold water tank 320 by gap 361.

Here, guidance grid 360 may include upper board 362, lower panel 364, intermediate plate 363 and side panel 365 etc..Its In, the lower part of the upper board 362 is arranged in multilayered structure for the lower panel 364, and the side panel 365 is for closing guidance The side of grid 360.

As described above, upper board 362 is obliquely installed towards ice bank 330, and has the gap 361 due to being formed, to make The ice 20 of disengaging is directed to ice bank 330, and water is then directed to lower panel 364 and intermediate plate 363 by gap 361.

Lower panel 364 is arranged in the lower end of upper board 362 and tilts to the opposite direction of upper board 362, for that will lead to The water for crossing gap 361 is guided to cold water tank 320.Intermediate plate 363 is arranged between the upper and lower end of upper board 362, uses In will be guided independently of lower panel 364 to cold water tank 320 by the water in gap 361.

In this way, compared with the case where forming lamina, can make to pass through seam when forming guidance grid with Multilayer Structure The water of gap 361 is evenly dispersed in lower panel 364 and intermediate plate 363.It is fallen on as a result, it is possible to reduce by the water droplet in gap 361 The noise for having accumulated water onboard and having generated.

Ice bank 330 is arranged in more top than the cold water storage space of ice-making compartment and than ice making unit (evaporator 410, electric heating Device 420, spray nozzle portion 430) position on the lower, and the bottom surface of ice bank 330 and the bottom surface interval of cold water tank 320 are set It sets, and for storing the ice 20 guided by guidance grid 360.Ice bank 330 is provided with screw rod 331, the screw rod 331 will storage The ice deposited is transported to 115 side of ice taking-out mouth, and is additionally provided with the motor 332 for rotating the screw rod 331.331 front end of screw rod Alar part 333 is appropriate for preventing from being stored in the generation stick to each other of ice 20 to be removed in ice bank 330 and carrying out to discharge-amount The component of adjusting.In addition, the bottom surface of ice bank 330 is formed with hole 334, so that the water energy of ice chemical conversion is enough discharged, so that The water of ice chemical conversion is dropped onto naturally in lower part cold water tank 320.

The other side for avoiding the side equipped with ice making unit 400 on the top of ice-making compartment is arranged in carbonic acid water pot 340, for making Standby and storage carbonated water.With regard to also carrying out cooling the present embodiment in this way to cold water while ice making using ice making unit 400 For the ice water purifier of structure, the other side (left side in Fig. 4 on the ice-making compartment top for carbonic acid water pot 340 to be arranged Portion space), it is originally exactly the space (dead space) vacated.It is made ice since ice bank 330 will be arranged in any case The lower position in portion 400, therefore, the upper space (the left upper portion space of ice-making compartment) of ice bank 330 is vacated in ice-making compartment. To, in the present embodiment, by being the installation space of carbonic acid water pot 340 by the space utilization vacated, and then can be maximum Space is utilized to limit, and plant bulk can be reduced.

By the pump 15 (referring to Fig.1) separately set, cold water 10 is supplied from cold water tank 320 to carbonic acid water pot 340 as carbonic acid Water preparation water, to prepare carbonated water.In addition, the carbonic acid gas that will be obtained from carbonic acid gas bucket 250 via carbonic acid gas flow path 23 Body is dissolved into the cold water being supplied to inside carbonic acid water pot 340, to prepare carbonated water.The carbon being stored in carbonic acid water pot 340 Sour water is removed by carbonated water flow path 26, and is discharged by intake 114, to be supplied to user.

In addition, be internally provided with circulating chilled water flow path 342 in carbonic acid water pot 340, the circulating chilled water flow path 342 is from cold Cold water is obtained in water pot 320 as cooling water, and recycles the cold water, so as to being stored in carbonic acid water pot 340 In carbonated water or carbonated water preparation cooled down with water to improve the preparation efficiency of carbonated water.Circulating chilled water flow path 342, such as The inside of carbonic acid water pot 340 can be set with winding in the form of coil, avoid cooling water and carbonated water (or carbonated water system Spare water) it is mixed.One end of circulating chilled water flow path 342 is connected with cooling water supply line 372, wherein described cold But it is used to be fed through circulating pump 370 with water supply line 372 and pumps the cold water 10 to come up.The other end of circulating chilled water flow path 342 It is connected with recycling flow path 373, so that the cold water recycled in circulating chilled water flow path 342 is along under the side wall stream of cold water tank 320 To be recycled in cold water tank 320.

In addition, in the present embodiment, by the way that current divider 375 is arranged in cooling water supply line 372, so that described cold But a circulating pump 370 is shared with water supply line 372 and above-mentioned ice making water supply line 371, thus reduces component count Still pump can also be used alone in amount in ice making water supply line 371 and cooling water supply line 372 respectively certainly.

So, while supplying the cold water 10 in cold water tank 320 to ice making unit 400 to prepare ice 20, utilization is cold But cold water 10 cools down carbonic acid water pot 340, thus can not only with cooling recirculation system (evaporator) come into Row ice making, additionally it is possible to neatly prepare cold water or even carbonated water.Especially, as long as ice making unit 400 is made ice, cold water tank 320 Interior cold water will be continuously cooled by, so as to using the cold water 10 being continuously cooled by come simultaneously to carbonic acid water pot 340 It is cooled down, thus it is possible to realize the cooling of cold water and the cooling of carbonated water simultaneously.Therefore, be able to solve in the prior art according to It is secondary to carry out cooling disadvantage, that is, the side being able to solve in cold water and carbonated water can not be sufficiently cooled or cooling performance is deposited The difference the problem of.

Although as described above, by limited embodiment and attached drawing, the present invention is described, the present invention and not only It is defined in this, those skilled in the art can carry out more in technical idea of the invention and following claims Kind modification and deformation are obvious.

For example, above-described embodiment is illustrated by taking the water purifier with filter house as an example, present invention can also apply to Directly mineral water and raw water are cooled down without filter house to supply the drinking water dispenser of ice and/or cold water.When for Installation mineral spring water pot come using drinking water dispenser when, above-mentioned water purification pot 310 can be replaced with mineral spring water pot.In benefit In the case where the raw waters such as tap water, it is convenient to omit water purification pot 310 directly supplies raw water to cold water tank 320.

In addition, in the above-described embodiments, the cooling to carbonic acid water pot 340 is implemented using the cold water in cold water tank 320, But individual cooling cycle or evaporator can be used also to cool down to carbonic acid water pot.

In addition, in the above-described embodiments, although evaporator 410 is illustrated as being formed with evaporator in U-tube and refers to portion 411 Form, but evaporator may also be arranged on the back side that ice generates frame i.e. ice-making tray (tray).In addition, in the above embodiments In, it illustrates to refer to that portion 411 carries out water spray to prepare ice and cold water to evaporator by spray nozzle portion 430, but can also It is sprayed water with being deformed into the inside of ice-making tray, or is deformed into and moves the water to flow into ice-making tray or ice making water receiving tank and make to hold in the palm Disk or the water-filled mode of water receiving tank are realized.In the case where ice making, it can pass through like this in ice-making tray full of water By the ice prepared by ice-making tray supply to cold water tank rather than ice bank, to prepare cold water.

Further, it illustrates to use electric heater 420 as the means that deice in the above-described embodiments, but can also be with Implement to deice by way of supplying the hot gas of high temperature to the inside of evaporator.

In addition, illustrate that ice bank 330 and the bottom surface of cold water tank 320 are provided spaced apart in the above-described embodiment, but It is that ice bank can also be separated with cold water tank by next door and is disposed adjacent with the side of cold water tank (left side of Fig. 4).Further Ground, circulating pump 370 is illustrated as being arranged inside cold water tank 320 in the above-described embodiments, but may also be arranged on cold water tank Outside.

In addition to this, drinking water dispenser can not have the hot water supplies functions such as hot-water line and on the other hand can also have There is the additional function of the beverages such as supply coffee.

Claims (9)

1. a kind of drinking water dispenser characterized by comprising

Cold water tank, lower part are stored with cold water and limit ice-making compartment, and the ice-making compartment is the space being integrally connected to；

Ice making unit, is arranged in the side on the top of the ice-making compartment, and is used to prepare ice；

Position more top than the cold water storage space of the ice-making compartment and than the ice making unit on the lower is arranged in ice bank, and For storing the ice prepared by ice making unit；

The other side for avoiding the side equipped with ice making unit on the top of the ice-making compartment is arranged in carbonic acid water pot, and for storing Carbonated water；And

Heat-barrier material surrounds the outside of the ice-making compartment.

2. drinking water dispenser according to claim 1, which is characterized in that

The carbonic acid water pot obtains the cold water for being stored in the ice-making compartment lower part and obtains carbonic acid gas from carbonic acid gas bucket, thus Carbonated water is made, and the carbonated water is stored.

3. drinking water dispenser according to claim 1, which is characterized in that

It is also equipped with circulating pump, the circulating pump will be stored in the cold water supply of the ice-making compartment lower part to the ice making unit；

The ice making unit obtains cold water by the circulating pump to prepare ice.

4. drinking water dispenser according to claim 1, which is characterized in that the ice making unit includes:

Evaporator, is formed as multiple finger-like and there is refrigerant flowing in inside；And

Multiple nozzles are arranged around the evaporator, and the cold water supplied by the circulating pump are sprayed to the evaporator.

5. drinking water dispenser according to claim 4, which is characterized in that

Also there is the guidance grid being arranged in the lower tilt of the ice making unit, the guidance grid will be detached from from the ice making unit Ice guide into the ice bank, and the cold water that ice is not made by ice making unit and flows is guided to the cold water tank Portion.

6. drinking water dispenser according to claim 1, which is characterized in that

The bottom surface of the ice bank is formed with hole, drops down onto the cold water tank with water droplet made of melting the ice.

7. drinking water dispenser according to claim 1, which is characterized in that

The carbonic acid water pot is internally provided with circulating chilled water flow path, and the circulating chilled water flow path acquisition is stored in the ice-making compartment The cold water of lower part simultaneously recycles the cold water.

8. drinking water dispenser according to claim 3, which is characterized in that

The carbonic acid water pot is internally provided with circulating chilled water flow path, and the circulating chilled water flow path acquisition is stored in the ice-making compartment The cold water of lower part simultaneously recycles the cold water；

The circulating pump also supplies cold water to the circulating chilled water flow path while supplying cold water to the ice making unit.

9. drinking water dispenser according to any one of claim 1 to 8, which is characterized in that

The drinking water dispenser is water purifier, and the water purifier has the filter house being filtered to the raw water of acquisition, from And it can supply by the purified water purification of the filter house.