CN208905555U - Embedded purifying drinking appliance - Google Patents

Abstract

The utility model discloses a kind of embedded purifying drinking appliance, the embedded purifying drinking appliance includes: soda module processed, including carbonization tank, the carbonization tank are connected with supercooling drainpipe, which is equipped with supercooling drain valve；Refrigeration module, including cold tank, the cold tank supply water to the carbonization tank；Water treating module, for supplying water to the cold tank；Feeder, for being supplied to the carbonization tank；Refrigerating plant, for cold tank refrigeration synchronous with carbonization tank；And controller, it is configured to the control when temperature is less than carbonization tank temperature degree lower threshold value in the tank of the carbonization tank and opens the supercooling drain valve, and the supercooling drain valve is closed in control when temperature is not less than carbonization tank temperature degree lower threshold value in tank.The embedded purifying drinking appliance of the utility model is multiple functional, stability is high and user experience is good.

Description

Embedded purifying drinking appliance

Technical field

The utility model relates to fields of home appliance technology, and in particular, to a kind of embedded purifying drinking appliance.

Background technique

Soda water with unique mouthfeel due to increasingly having been favored by people, but existing purifying drinking appliance generally only has It prepares heat or refrigerating function, producer is also difficult to for soda technology processed being integrated into purifying drinking appliance.Therefore, existing purifying drinking appliance cannot be compared with Meet a variety of of user well and drinks requirement.

In addition, existing embedded purifying drinking appliance is due to that can be completely embedded into cabinet or wall and be formed as with whole kitchen The entirety of one coordination, increasingly obtains the favor of consumer, more more and more universal.Wherein, it is passed directly into from external raw water In purifying drinking appliance, then by the filter element filtering in purifying drinking appliance fall the pollutant in raw water obtain directly drinking for user it is pure Water, pure water obtained is from the liquid holding cup body that the water outlet of purifying drinking appliance flows into user.

And for the filter element replacing of embedded purifying drinking appliance, it will usually filter element replacing be arranged on the top panel of machine shell and open Mouthful, filter core passes through filter element replacing opening vertical pendulum and is placed in machine shell, in this way, just needing first by complete machine when filter core to be replaced It is extracted out out of cabinet or wall, is then open by filter element replacing and replaces filter core, finally also need complete machine being packed into cabinet or wall In.Such substitute mode is not easy to user's operation, and user experience is bad.

Utility model content

In view of the above drawbacks of the prior art or insufficient, the utility model provides a kind of embedded purifying drinking appliance, this is practical It is novel to provide a kind of embedded purifying drinking appliance, while having the function of pure water processed and soda water processed, it can satisfy the more of user Kind drinks requirement, and the supercooling protection structure in soda module processed is conducive to improve job stability, in addition, the utility model Embedded purifying drinking appliance is not required to from cabinet or wall extract complete machine out when replacing filter core, simple and convenient, can be greatly Improve the usage experience of user.

To achieve the above object, the utility model provides a kind of embedded purifying drinking appliance, and the embedded purifying drinking appliance includes:

Soda module processed, including carbonization tank, the carbonization tank are connected with supercooling drainpipe, which is equipped with supercooling Drain valve；

Refrigeration module, including cold tank, the cold tank supply water to the carbonization tank；

Water treating module, for supplying water to the cold tank；

Feeder, for being supplied to the carbonization tank；

Refrigerating plant, for cold tank refrigeration synchronous with carbonization tank；And

Controller, the controller are configured to when temperature is less than carbonization tank temperature degree lower threshold value time control in the tank of the carbonization tank The system opening supercooling drain valve, and temperature is not less than control closing when being carbonized tank temperature degree lower threshold value in the tank of the carbonization tank The supercooling drain valve.

Preferably, the carbonization tank temperature degree lower threshold value is -1 DEG C~0 DEG C.

Preferably, the supercooling drainpipe is coiled as cooling water pipe in the heat generating device in the embedded purifying drinking appliance Shell.

Preferably, the refrigerating plant includes compressor, condenser and the coiled evaporation set gradually in coolant loop Device, the pipe-coil type evaporator are successively coiled in the cold tank and the carbonization tank, and the supercooling drainpipe is as cooling water pipe It coils in the condenser.

Preferably, the water treating module includes the filter core with reverse osmosis filter core layer, is arranged in the reverse osmosis filter core The drainage booster pump and filtered filtered wastewater pipe of the water inlet upstream of layer, the supercooling drainpipe are connected to the filtering Waste pipe.

Preferably, the water treating module further includes water tank, and the water tank is connected to the cold tank, institute by water supply pipe It states and is equipped with water supply pump in water supply pipe, carbonization tank water-level probe is equipped in the carbonization tank；

Wherein, the controller is configured that

When the carbonization tank water level of the carbonization tank water-level probe sensing is less than carbonization tank water level lower threshold value, control starting institute State water supply pump；

When the carbonization tank water level of the carbonization tank water-level probe sensing is greater than carbonization tank water level upper threshold value, institute is closed in control State water supply pump.

Preferably, double tanks are equipped between the water outlet of the cold tank and the water inlet of the carbonization tank and are connected to water pipe, it is described Double tank connection water pipes branch out the cold tank outlet pipe for being connected to cold water faucet.

Preferably, the water treating module includes the filter core mounting base for installing the filter core, the feeder packet Built-in gas cylinder and the gas cylinder mounting base for installing the built-in gas cylinder are included, the gas cylinder mounting base setting is installed in the filter core It the front of seat and is fixed in machine cavity, the front panel of the machine cavity is equipped with consumptive material alias；

Wherein, the horizontal insertion installation direction that the filter core is parallel to the embedded purifying drinking appliance is put, the built-in gas Bottle is vertically put, and the built-in gas cylinder and the filter core can pass sequentially through the consumptive material alias and take out from the machine cavity Out.

Preferably, the water treating module is arranged close to the inner sidewall of the machine cavity, the water tank, filter core mounting base and filter Water booster pump is from top to bottom sequentially arranged.

Preferably, the embedded purifying drinking appliance further includes the heating for heating the purified water from the water treating module Module, the heating module are arranged in the middle part of the machine cavity, and the side of the heating module is the water treating module, another Side is the refrigeration module and soda module processed.

Preferably, it is equipped in carbonization tank temperature-sensing probe and the cold tank in the carbonization tank and is equipped with cold tank temperature-sensing probe, institute Controller is stated to be configured that

When temperature is greater than cold tank temperature degree upper threshold value in the tank of the cold tank of the cold tank temperature-sensing probe sensing, control is opened Move the compressor；

When temperature is less than cold tank temperature degree lower threshold value in the tank of the cold tank of the cold tank temperature-sensing probe sensing, control is closed Close the compressor.

Preferably, normally closed soda water route high pressure valve, the controller are equipped in the outlet pipeline of the soda module processed It is configured that when the trigger interval time of soda water route high pressure valve reaching the predetermined purge time, the soda is opened in control Water route high pressure valve.

The embedded purifying drinking appliance of the utility model is by filling water treating module, soda module processed, refrigerating plant and gas supply Carry out linkage control is set, complete machine is made to be provided simultaneously with pure water processed and soda water function processed, meets a variety of of user and drinks requirement.And And structure and corresponding control mode for protection to be subcooled are equipped in soda module processed, be conducive to improve job stability, prolong The service life of long carbonization tank.In addition, the filter core horizontal placing of the embedded purifying drinking appliance of the utility model is in filter core slot, and Filter core can not only laterally inwardly be plugged in filter core slot from the front side of shell, and can also be laterally outward out of filter core mounting base Whole extraction, can reduce the fussy degree of filter element replacing, improves the usage experience of user.

Other features and advantages of the utility model will the following detailed description will be given in the detailed implementation section.

Detailed description of the invention

Attached drawing is to be used to provide a further understanding of the present invention, and constitute part of specification, and following Specific embodiment be used to explain the utility model together, but do not constitute limitations of the present invention.In the accompanying drawings:

Fig. 1 is the perspective view of the carbonization tank in specific embodiment of the present utility model；

Fig. 2 is the Structure explosion diagram of the carbonization tank in Fig. 1；

Fig. 3 is the complete machine schematic layout pattern of the embedded purifying drinking appliance in embodiment one；

Fig. 4 is the perspective view of the cold tank and carbonization tank in specific embodiment of the present utility model；

Fig. 5 is the Structure explosion diagram of the cold tank in Fig. 4；

Fig. 6 is the perspective view of the cold tank to freeze independently of each other and carbonization tank；

Fig. 7 is that the complete machine of the embedded purifying drinking appliance in the embodiment two using cold tank and carbonization tank in Fig. 6 is laid out Schematic diagram；

Fig. 8 is the cold tank of synchronous refrigeration and the perspective view of carbonization tank；

Fig. 9 is that the complete machine of the embedded purifying drinking appliance in the embodiment two using cold tank and carbonization tank in Fig. 8 is laid out Schematic diagram；

Figure 10 is the complete machine schematic layout pattern of the embedded purifying drinking appliance in embodiment three；

Figure 11 is the perspective view of the preferred water treating module in specific embodiment of the present utility model；

Figure 12 is the Structure explosion diagram when water treating module in Figure 11 is equipped with built-in gas cylinder；

Figure 13 is to integrate pure water processed in specific embodiment of the present utility model, heating, freeze, soda module processed Embedded purifying drinking appliance perspective view.

Description of symbols:

100 embedded purifying drinking appliances

1 water treating module, 2 refrigeration module

34 heating modules of soda module processed

11 water tank, 12 filter core

13 drainage booster pump, 14 filter core mounting base

The cold tank of 15 gas cylinder mounting base 21

The 22 cold tank water inlet pipes of cold tank temperature-sensing probe 23

The 24 cold tank tapping pipes of cold tank outlet pipe 25

31 carbonization 32 air supply pipes of tank

33 relief valves 34 unhurried current plate

The 35 carbonization carbonization tank outlet pipes of tank water inflow nozzles 36

The 37 carbonization carbonization tank temperature-sensing probes of tank tapping pipes 38

39 carbonization 51 compressors of tank water-level probe

52 condenser, 53 pipe-coil type evaporator

54 first refrigerant solenoid valve, 55 second refrigerant solenoid valve

Gas cylinder built in 56 insulating foams 61

62 external gas cylinders

531 first pipe-coil type evaporator, 532 second pipe-coil type evaporator

Specific embodiment

Specific embodiment of the present utility model is described in detail below in conjunction with attached drawing.It should be understood that herein Described specific embodiment is only used for describing and explaining the present invention, and is not intended to limit the utility model.

It should be noted that in the absence of conflict, the feature in the embodiments of the present invention and embodiment can To be combined with each other.

In the present invention, in the absence of explanation to the contrary, the noun of locality used such as " upper and lower, top, bottom " is usually Be for direction shown in the drawings either for it is vertical, vertically or on gravity direction for each component mutual alignment Relationship description word.

The utility model will be described in detail below with reference to the accompanying drawings and embodiments.

The utility model provides a kind of embedded purifying drinking appliance 100, as shown in figure 1 to figure 13, is equipped with and is used in machine cavity The water treating module 1 of pure water processed, the soda module 3 processed for soda water processed, the gas supply for supplying to soda module 3 processed fill It sets and the refrigerating plant for freezing to soda module 3 processed, the utility model is reasonable by making to above-mentioned each module and device Layout and linkage control, make embedded purifying drinking appliance 100 be provided simultaneously with pure water processed and soda water function processed, meet the more of user Kind drinks requirement.

The system for chilled water can be also equipped in following some embodiments, in the machine cavity of embedded purifying drinking appliance 100 Cold module 2 and heating module 4 for water heating enable embedded purifying drinking appliance 100 to make in the case where the difference of user drinks requirement The drinking water of different temperatures.That is the embedded purifying drinking appliance 100 of the utility model can collect filtering, refrigeration, heat and soda processed etc. is more One or more of kind functional module significantly improves the usage experience of user in one.

The basic structure and working principle explained below for illustrating soda module 3 processed:

Soda module 3 processed includes the carbonization tank 31 for storing soda water, which is equipped with flows into for pure water Carbonization tank water inflow nozzle 35, for soda water outflow carbonization tank outlet pipe 36, be connected to feeder air supply pipe 32, for tieing up Hold the relief valve 33 of the stable gas pressure in carbonization tank 31 and the carbonization tank tapping pipe 37 for draining under specific condition.In addition, Water level in carbonization tank temperature-sensing probe 38 and real-time detection tank for water temperature in real-time detection tank is additionally provided in carbonization tank 31 Be carbonized tank water-level probe 39.

It should be noted that the water temperature of lower section is less than the (soda i.e. in tank of the water temperature of top in the tank of carbonization tank 31 Water is according to temperature stratification), and the tank outlet pipe 36 that is carbonized can extend to below in tank to ensure that water outlet hydraulic pressure is sufficient and true Protect the soda water that can preferentially export compared with low temperature.Therefore, the utility model preferably installation carbonization in the water inlet of carbonization tank 31 Tank water inflow nozzle 35 rather than carbonization tank water inlet pipe.This is because being from the water that carbonization tank water inflow nozzle 35 flows into carbonization tank 31 Shape is sprayed, the temperature stratification state that the water in tank is kept will not be confused, it is ensured that user can drink the optimal soda of water temperature Water.Alternatively, carbonization tank water inlet pipe can also be used, but preferably needs to be arranged in carbonization tank 31 and flow into water for accepting to ease up Flow slowly plate 34, i.e., can first be dropped on unhurried current plate 34 from the pure water that carbonization tank water inlet pipe flows into, then pass through the side of unhurried current plate 34 Edge flows slowly into the water of carbonization tank 31.

The soda module 3 processed of the utility model can follow the starting of embedded purifying drinking appliance 100 and immediately enter working condition. Its working principle is that: on the one hand, pure water can be sprayed in carbonization tank 31 by the tank water inflow nozzle 35 that is carbonized, and spray the water droplet of shape Whereabouts Shi Huixian is dropped on unhurried current plate 34, is dispersed using the edge of unhurried current plate 34 and is slowly flowed into the original of carbonization tank 31 In some water storages.On the other hand, feeder (can be built-in gas cylinder 61 or external gas cylinder 62) continual communication air supply pipe 32 with It providing in carbon dioxide to carbonization tank 31, soda module 3 processed can drain supersaturated air pressure in carbonization tank 31 by relief valve 33, Ensure the stabilization of air pressure in tank.Meanwhile refrigerating plant carries out cooling treatment to carbonization tank 31, and water temperature in tank is made to be maintained at suitable To ensure the dissolution rate (generally in the mouthfeel of 4 DEG C or so soda water best) of carbon dioxide in water in range.When user needs When drinking, the soda water in tank can flow to the water outlet of soda water faucet by the tank outlet pipe 36 that is carbonized.In addition, in soda module processed In 3 course of work, water temperature and water level can be controlled by carbonization tank temperature-sensing probe 38 and carbonization tank water-level probe 39, it is ensured that entire Soda module stability processed reliably works.

In addition, inevitably will appear some functional modules during user uses embedded purifying drinking appliance 100 and do not use for a long time The case where.For example, the soda water stored in tank 31 that is carbonized can gradually be bred carefully when user does not use soda module 3 processed for a long time Bacterium and become metamorphic water, it is clear that the health of user can greatly be damaged by drinking metamorphic water.

Hereby, normally closed soda water route is arranged in carbonization tank outlet pipe 36 in the embedded purifying drinking appliance 100 of the utility model High pressure valve.It, can be on the control panel by embedded purifying drinking appliance 100 when user thinks actively to empty the metamorphic water in carbonization tank 31 Touch controlled key triggering open the soda water route high pressure valve to clear metamorphic water.Alternatively, can also be in embedded purifying drinking appliance 100 Corresponding program is set in controller with the metamorphic water in regular emptying carbonization tank 31.For example, the soda water route high pressure valve can be set It is set to the control valve when the trigger interval time reaching the predetermined purge time to open, i.e., when system detection to soda water route high pressure valve (i.e. above-mentioned predetermined purge time, according to the actual situation depending on) does not have opened for some time, and controller can automatically control Soviet Union High pressure valve is opened by water.It should be noted that being also communicated between above-mentioned soda water route high pressure valve and soda water faucet Be carbonized tank tapping pipe 37, and during being carbonized 31 row's metamorphic water of tank, soda water route high pressure valve is opened, and soda water faucet closes It closes, metamorphic water can be outside carbonization 37 discharge machine of tank tapping pipe.

The soda module 3 processed of the embedded purifying drinking appliance 100 of the utility model can also have different structure and refrigeration side Formula will be enumerated four kinds of different embodiments below and is described.But it should be recognized that four kinds of embodiments are only used for solving It releases the utility model, and is not considered as limitations of the present invention, that is, the soda processed being applied in embedded purifying drinking appliance The other structures or control mode of module should also be as within the scope of the considerations of belonging to the utility model.

Embodiment one (water treating module 1 provides normal-temperature water to soda module 3 processed)

As shown in Figure 1 to Figure 3, present embodiments provide for a kind of embedded purifying drinking appliance 100, the embedded purifying drinking appliances 100 In soda module 3 processed can directly be supplied water by water treating module 1, belong to the soda module processed of Self-cooling.It should be noted that Due to being normal-temperature water (about 25 DEG C) from the filtered pure water of water treating module 1, with water temperature of soda water mouthfeel when best The temperature difference between (about 4 DEG C) is larger, therefore refrigerating plant needs to expend many time to cool down normal-temperature water.But another party Face, the embedded purifying drinking appliance 100 in present embodiment is due to eliminating the device for being precooled to normal-temperature water, Neng Gou great It is big to reduce production cost, there is wider audient's range.

Specifically, the refrigerating plant of the embedded purifying drinking appliance 100 in present embodiment, which is included in coolant loop, successively sets Compressor 51, condenser 52 and the pipe-coil type evaporator 53 set.Wherein, pipe-coil type evaporator 53 is coiled as cooling line in system With the soda water in cooling tank on the shell of the carbonization tank 31 of soda module 3.

When temperature is less than carbonization tank temperature degree lower threshold value in the tank that tank temperature-sensing probe 38 senses that is carbonized, embedded purifying drinking appliance Controller control compressor 51 in 100 is closed to stop the cooling to carbonization tank 31, to prevent the temperature of soda water too low And freeze, thus the case where avoiding carbonization tank 31 from bursting.Also, when temperature is big in the tank that carbonization tank temperature-sensing probe 38 senses In be carbonized tank temperature degree upper threshold value when, controller control compressor 51 restarting with to carbonization tank 31 cool down, to maintain Water temperature in tank, it can be ensured that carbon dioxide dissolution rate with higher, so that it is guaranteed that the good taste of soda water.

When the carbonization tank water level that tank water-level probe 39 senses that is carbonized is less than carbonization tank water level lower threshold value, controller control is opened Dynamic water supply pump avoids supplying water when user needs to drink soda water to promote the moisturizing into carbonization tank 31 of water treating module 1 Insufficient situation.Also, when the carbonization tank water level that tank water-level probe 39 senses that is carbonized is greater than water level upper threshold value, controller control Close water supply pump.

Embodiment two (refrigeration module 2 and soda module 3 processed are freezed)

It include refrigeration module 2 and soda processed present embodiments provide for one kind as shown in Fig. 1 and Fig. 2 and Fig. 4 to Fig. 9 The embedded purifying drinking appliance 100 of module 3.In the course of work of the embedded purifying drinking appliance 100, water treating module 1 is refrigeration module 2 In cold tank 21 normal-temperature water is provided, which is that carbonization tank 31 provides cold water, and feeder is that carbonization tank 31 supplies, refrigeration dress Setting can be to cold tank 21 refrigeration synchronous with carbonization tank 31, alternatively, can freeze independently of each other.

Specifically, the pure water in the water tank of water treating module 1 can be under the action of water supply pump through cold tank water inlet pipe 23 It flows into cold tank 21, the carbonization tank water inflow nozzle 35 of the cold tank outlet pipe 24 connection carbonization tank 31 in the cold tank 21 is to form double tanks It is connected to water pipe.Further, which can branch out the cold tank outlet pipe 24 for being connected to cold water faucet.User was both Cold water faucet can be opened and take cold water, and soda water faucet can be opened and take soda water, or can also by cold water faucet and Soda water faucet is integrated into same faucet to simplify water outlet port structure.In addition, in cold tank 21 be equipped in real time sense tank The cold tank temperature-sensing probe 22 of interior temperature.

Below by the different refrigeration modes of the soda module 3 processed illustrated in present embodiment respectively.

The case where Fig. 1, Fig. 2 and Fig. 4 are shown when cold tank 21 freezes independently of each other with carbonization tank 31 to Fig. 7.

Refrigerating plant includes the compressor 51 set gradually in coolant loop, condenser 52 and is set side by side at this time First pipe-coil type evaporator 531 and the second pipe-coil type evaporator 532.Wherein, the first coil pipe equipped with the first refrigerant solenoid valve 54 Formula evaporator 531 coils the second coiled evaporation in cold tank 21, equipped with the second refrigerant solenoid valve 55 as the first cooling line Device 532 is coiled as the second cooling line in carbonization tank 31.

When temperature is greater than cold tank temperature degree upper threshold value in the tank of the cold tank 21 of cold tank temperature-sensing probe 22 sensing, embedded net drink The controller control starting compressor 51 of machine 100 simultaneously opens the first refrigerant solenoid valve 54 so that refrigerant is evaporated by the first coiled Device 531, to be cooled down to cold tank 21.Also, when cold tank temperature-sensing probe 22 sensing cold tank 21 tank in temperature be less than it is cold When tank temperature degree lower threshold value, controller control closes the first refrigerant solenoid valve 54 to cut off refrigerant in the first pipe-coil type evaporator 531 On circulation.

And for the tank that is carbonized, when temperature is greater than carbonization tank in the tank for the carbonization tank 31 that carbonization tank temperature-sensing probe 38 senses When temperature upper threshold value, controller control starting compressor 51 simultaneously opens the second refrigerant solenoid valve 55 so that refrigerant passes through the second coil pipe Formula evaporator 532.Also, when carbonization tank temperature-sensing probe 38 sense carbonization tank 31 tank in temperature be less than carbonization tank at a temperature of threshold When value, control closes the second refrigerant solenoid valve 55 to cut off circulation of the refrigerant on the second pipe-coil type evaporator 532.

It can be seen from the above, refrigerating plant in present embodiment cold tank 21 and carbonization tank 31 can be carried out respectively it is independent cold But, compressor can be constantly in working condition, and control mode is relatively easy, and be avoided that the feelings being subcooled occurs in carbonization tank 31 Condition, use reliability are high.

In addition, when the carbonization tank water level that tank water-level probe 39 senses that is carbonized is less than carbonization tank water level lower threshold value, controller Controllable starting water supply pump is to promote the pure water of water treating module 1 to flow into cold tank 21, while the cold water in cold tank 21 is also corresponding Ground flows into carbonization tank 31 through cold tank outlet pipe 24 and carbonization tank water inflow nozzle 35, to realize the moisturizing to carbonization tank 31.And And when be carbonized tank water-level probe 39 sense carbonization tank water level be greater than water level upper threshold value when, controller control close water supply pump with Stop moisturizing, to maintain the water level balance in carbonization tank 31.

The case where when Fig. 1 and Fig. 2, Fig. 4 and Fig. 5 and Fig. 8 and Fig. 9 show cold tank 21 synchronous with carbonization tank 31 refrigeration.

Refrigerating plant includes compressor 51, condenser 52 and the coiled evaporation set gradually in coolant loop at this time Device 53, the pipe-coil type evaporator 53 are sequentially connected in series coiling in cold tank 21 and carbonization tank 31 as synchronous cooling pipeline.

When temperature is greater than cold tank temperature degree upper threshold value in the tank of the cold tank 21 of cold tank temperature-sensing probe 22 sensing, embedded net drink The controller control starting compressor 51 of machine 100 is so that refrigerant passes through pipe-coil type evaporator 53.Also, work as cold tank temperature-sensing probe 22 When temperature is less than cold tank temperature degree lower threshold value in the tank of the cold tank 21 of sensing, controller controls close compressor 51 to cut off refrigerant stream It is logical.

And for the tank that is carbonized, when temperature is greater than carbonization tank in the tank for the carbonization tank 31 that carbonization tank temperature-sensing probe 38 senses When temperature upper threshold value, controller control starting compressor 51 is so that refrigerant passes through pipe-coil type evaporator 53.Also, when carbonization tank sense Temperature probe 38 sensing carbonization tank 31 tank in temperature be less than carbonization tank temperature degree lower threshold value when, controller control close compressor with Cut off refrigerant circulation.

As it can be seen that refrigeration module 2 and soda module 3 processed are equipped with accordingly in cold tank 21 refrigeration synchronous with carbonization tank 31 Two kinds of control programs relevant to the start and stop of compressor.But it is not fully mutually indepedent between both control programs, this be by Water temperature needed for soda water is lower than water temperature needed for cold water, when compressor start and starts the cold tank 21 of synchronous cooling and carbonization When tank 31, the water temperature in two tanks is continued to decline.But it will be apparent that cold tank temperature-sensing probe 22 can be visited prior to carbonization tank temperature-sensitive First 38 feed back to the signal that compressor 51 is closed is controlled in controller, this allows for the soda water in carbonization tank 31 and is not up to Required water temperature stops cooling.If user continues for some time a Chilled Drinking Water without drinking soda water, then whenever cold tank When supplementing new normal-temperature water in 21, it is cold that controller can all drive compressor 51 to synchronize cold tank 21 and carbonization tank 31 again But, at this time due to store the low temperature soda water that do not drink always in carbonization tank 31, temperature can be increasingly after multiple cooling It is low.When water temperature is lower than -1 DEG C~0 DEG C, soda water will freeze, and burst so as to cause carbonization tank 31.

The problem of being subcooled based on water temperature that may be present in above-mentioned carbonization tank 31, to cold tank 21 system synchronous with carbonization tank 31 When cold, need to be arranged in the controller corresponding supercooling protective program.And in structure, it needs that supercooling is arranged in carbonization tank 31 Drainpipe and supercooling drain valve for opening and closing the supercooling drainpipe.

Further, controller can be configured to when temperature is less than carbonization tank temperature degree lower threshold value (preferably in the tank of carbonization tank 31 It is -1 DEG C~0 DEG C) when, supercooling drain valve is opened in control so that the soda water of supercooling passes through outside supercooling drainpipe discharge machine.Also, When temperature is not less than carbonization tank temperature degree lower threshold value in the tank for the tank 31 that is carbonized, control is re-closing off the supercooling drain valve.

After draining the soda water of supercooling, carbonization tank 31 can be in exsiccosis.At this point, controller further can be configured To control starting water supply pump when the carbonization tank water level that tank water-level probe 39 senses that is carbonized is less than carbonization tank water level lower threshold value, from And make 1 moisturizing of water treating module to cold tank 21 and the correspondingly moisturizing extremely carbonization tank 31, and the tank water-level probe that ought be carbonized of cold tank 21 When the carbonization tank water level of 39 sensings is greater than carbonization tank water level upper threshold value, water supply pump is closed in controller control.In the water level control journey Under sequence, the water level being carbonized in tank 31 can be gradually recovered normally.

It is above-mentioned to carbonization tank 31 moisturizing during, due to carbonization tank 31 in water temperature increase again, control Device can control the restarting of compressor 51 again to cool down to it.

Further, the supercooling drainpipe for being connected with low temperature soda water can be coiled as cooling line in embedded purifying drinking appliance On the shell of heat generating device in 100, i.e. supercooling drainpipe can serve as radiator on other occasions.For example, supercooling Drainpipe can be used as cooling water pipe coiling on the condenser 52 connecting with compressor 51, so as to quickly take away condenser 52 Heat, realize better protection to condenser 52.Also, supercooling drainpipe also preferably converges into filtered wastewater pipe So that the soda water and waste water of supercooling are discharged outside machine together, which can simplify the pipeline structure of embedded purifying drinking appliance 100, from And save space in machine.

Embodiment three (refrigeration of refrigeration module 2 and soda module 3 processed is kept the temperature)

As shown in Figure 10, present embodiments provide for a kind of embedded purifying drinking appliance 100, which includes Be arranged in soda module 3 processed in machine cavity, refrigeration module 2, the water treating module 1 to supply water to refrigeration module 2, refrigerating plant and The feeder supplied to soda module 3 processed.Wherein, refrigerating plant is used to freeze to the cold tank 21 of refrigeration module 2, the cold tank 21 Cold water is provided to the carbonization tank 31 of soda module 3 processed, and the outer tank body for the tank 31 that is carbonized is equipped with insulating layer to maintain the soda in tank The low-temperature condition of water.

Specifically, the pure water in the water tank of water treating module 1 can be under the action of water supply pump through cold tank water inlet pipe 23 It flows into cold tank 21, the carbonization tank water inflow nozzle 35 of the cold tank outlet pipe 24 connection carbonization tank 31 in the cold tank 21 is to form double tanks It is connected to water pipe.Further, which can branch out the cold tank outlet pipe 24 for being connected to cold water faucet.User was both Cold water faucet can be opened and take cold water, and soda water faucet can be opened and take soda water, or can also by cold water faucet and Soda water faucet is integrated into same faucet to simplify water outlet port structure.In addition, in cold tank 21 be equipped in real time sense tank The cold tank temperature-sensing probe 22 of interior temperature and cold tank water-level probe for sensing cold tank water level in real time.

In the present embodiment, the refrigerating plant of embedded purifying drinking appliance 100 includes the pressure set gradually in coolant loop Contracting machine 51, condenser 52 and pipe-coil type evaporator 53, the pipe-coil type evaporator 53 are coiled as cooling line in cold tank 21.

Further, embedded purifying drinking appliance 100 further includes controller, which is configured to when carbonization tank temperature-sensing probe 38 When temperature is greater than carbonization tank temperature degree upper threshold value in the tank of the carbonization tank 31 of sensing, control is opened normally closed in carbonization tank outlet pipe 36 Soda water route high pressure valve, thus make be carbonized tank 31 be discharged the heating of long term storage soda water.When in carbonization tank 31 After soda water emptying, soda water route high pressure valve returns back to closed state.

At this point, carbonization tank water-level probe 39, which can sense carbonization tank 31, is in exsiccosis, i.e. carbonization tank water level is less than carbon When changing tank water level lower threshold value, controller can control starting water supply pump to promote the moisturizing into cold tank 21 of water treating module 1, tightly at once Then cold tank 21 also can the moisturizing into carbonization tank 31.And when the carbonization tank water level that carbonization tank water-level probe 39 senses is greater than on water level When threshold value, controller control closes water supply pump to stop moisturizing.

On the other hand, when temperature is greater than cold tank temperature degree upper threshold value in the tank of the cold tank 21 of cold tank temperature-sensing probe 22 sensing, Control starting compressor 51 is so that refrigerant passes through pipe-coil type evaporator 53.Also, when the cold tank 21 of cold tank temperature-sensing probe 22 sensing Tank in temperature be less than cold tank temperature degree lower threshold value when, controller control close compressor 51 with cut off refrigerant circulation.

In addition, when the cold tank water level of cold tank water-level probe sensing is less than cold tank water level lower threshold value, control starting water supply pump To promote 1 moisturizing of water treating module, and when the cold tank water level of cold tank water-level probe sensing is greater than cold tank water level upper threshold value, control Water supply pump is closed to stop moisturizing.

The embedded purifying drinking appliance 100 of the utility model is preferably using water treating module 1 shown in Figure 11 to Figure 13.The water The filter core 12 of processing module 1 including horizontal placing and the filter core mounting base 14 of fixed setting, filter core 12 is from embedded purifying drinking appliance 100 The front side of shell be laterally inwardly plugged in filter core mounting base 14, and can laterally outward extract out in filter core mounting base 14 with whole The horizontal insertion installation direction that body replacement, i.e. filter core 12 are parallel to embedded purifying drinking appliance 100 is put.

Further, the gas cylinder mounting base 15 in feeder, the gas cylinder mounting base can be fixedly mounted in water treating module 1 15 are arranged in the front of filter core mounting base 14 and are fixed in machine cavity, and the front panel of machine cavity is substituted into equipped with consumptive material Mouthful.At this point, built-in gas cylinder 61 is vertically installed in gas cylinder mounting base 15, and built-in gas cylinder 61 and filter core 12 can pass sequentially through Consumptive material alias is extracted out from machine cavity.

By the way that above structure is arranged, filter core mounting base 14 is fixedly installed in machine cavity, and filter core 12 can not only be from outer The front side of shell is laterally inwardly plugged in filter core mounting base 14, but also can laterally outward be extracted out from the front side of shell in filter core Mounting base 14.In this way, when needing to change filter core 12, user just only need to from the front side of shell by filter core 12 laterally outwards from filter core It extracts out in mounting base 14, then again laterally inwardly inserts the filter core of replacement in filter core mounting base 14 i.e. from the front side of shell again It can.The substitute mode of such filter core 12 is not required to from cabinet or wall extract the complete machine of embedded purifying drinking appliance 100 out, also be not required to By filter core mounting base 14 and the intracavitary extraction of slave together of filter core 12, so that it may integral replacing is carried out to filter core 12, it is simple and convenient, The fussy degree that filter element replacing can be greatly reduced is conducive to the usage experience for improving user.

In addition, filter core mounting base 14 is not with the intracavitary extraction of slave together of filter core 12, i.e. filter core mounting base 14 is fixedly installed on In machine cavity, as a result, in user's self-changeable filter core 12, additionally it is possible to effectively avoid the maloperation due to user and be installed to filter core The components such as the pipeline being arranged on seat 14 generate interference (pipeline of such as damaging), are conducive to the reliability and service life that improve complete machine.

Specifically, above-mentioned water treating module 1 further includes the filter core 12 with reverse osmosis filter core layer, is arranged in reverse osmosis filter core The drainage booster pump 13 and filtered filtered wastewater pipe of the water inlet upstream of layer, the supercooling referred in the above-described embodiment Drainpipe can be connected to filtered wastewater pipe, so that the soda water of supercooling is converged into waste water and is discharged outside machine together, simplifies pipeline architecture.

Above-mentioned reverse osmosis filter core layer is the filter core layer being mainly made of RO film, can effectively remove heavy metal ion or thin The impurity such as bacterium.It is to be appreciated that the raw water being passed through in filter core 12 is commonly the tap water in external running water pipe, and originally now Hydraulic pressure in water pipe is usually 0.3MPa or so, but fluid pressure need to reach 0.6MPa or so could pass through reverse osmosis filter core layer into Row filtering.Therefore, to allow the liquid to be filtered through reverse osmosis filter core layer, with regard to need to add drainage booster pump 13 with to liquid into Row pressurization (being such as pressurized to 0.6MPa or so).

Further, above-mentioned water treating module 1 further includes for storing the water tank 11 through the filtered pure water of filter core 12. And in order to make complete machine structure compact, water tank 11, filter core mounting base 14 and drainage booster pump 13 can be preferably arranged to edge It successively arranges vertically downwards.

In addition, the embedded purifying drinking appliance 100 of the utility model can also be equipped with heating module 4, the heating module 4 is for heating Purified water in water tank 11 from water treating module 1.For example, heating module 4 can be arranged in machine cavity in complete machine layout Middle part, one side can be equipped with water treating module 1, and the other side can be equipped with refrigeration module 2 and soda module 3 processed, make embedded net drink Machine 100 integrates the function of normal-temperature water processed, water heating, chilled water and soda water processed, meets a variety of of user and drinks requirement, And user need not purchase more and only have the single machine for drinking function, and the installation space of family is greatly saved.

Preferred embodiments of the present invention, still, the utility model and unlimited are described in detail in conjunction with attached drawing above Detail in above embodiment can be to the skill of the utility model in the range of the technology design of the utility model Art scheme carries out a variety of simple variants, these simple variants belong to the protection scope of the utility model.

It is further to note that specific technical features described in the above specific embodiments, in not lance It in the case where shield, can be combined in any appropriate way, in order to avoid unnecessary repetition, the utility model is to each No further explanation will be given for the possible combination of kind.

In addition, any combination can also be carried out between a variety of different embodiments of the utility model, as long as it is not disobeyed The thought for carrying on the back the utility model, equally should be considered as content disclosed in the utility model.

Claims (12)

1. a kind of embedded purifying drinking appliance, which is characterized in that the embedded purifying drinking appliance (100) includes:

Soda module (3) processed, including carbonization tank (31), the carbonization tank (31) are connected with supercooling drainpipe, the supercooling drainpipe Equipped with supercooling drain valve；

Refrigeration module (2), including cold tank (21), the cold tank (21) are supplied water to the carbonization tank (31)；

Water treating module (1), for supplying water to the cold tank (21)；

Feeder, for being supplied to the carbonization tank (31)；

Refrigerating plant, for the cold tank (21) refrigeration synchronous with carbonization tank (31)；And

Controller, the controller are configured to when temperature is less than carbonization tank temperature degree lower threshold value time control in the tank of carbonization tank (31) System opens the supercooling drain valve, and in the tank of carbonization tank (31) temperature not less than carbonization tank temperature degree lower threshold value when control Close the supercooling drain valve.

2. embedded purifying drinking appliance according to claim 1, which is characterized in that the carbonization tank temperature degree lower threshold value be -1 DEG C~ 0℃。

3. embedded purifying drinking appliance according to claim 1, which is characterized in that the supercooling drainpipe is as cooling water pipe dish It is around in the shell of the heat generating device in the embedded purifying drinking appliance (100).

4. embedded purifying drinking appliance according to claim 3, which is characterized in that the refrigerating plant include in coolant loop according to Compressor (51), condenser (52) and the pipe-coil type evaporator (53) of secondary setting, the pipe-coil type evaporator (53) are successively coiled In the cold tank (21) and the carbonization tank (31), the supercooling drainpipe is coiled as cooling water pipe in the condenser (52)。

5. embedded purifying drinking appliance according to claim 1, which is characterized in that the water treating module (1) includes having instead Permeate the filter core of filter core layer, the drainage booster pump for the water inlet upstream that the reverse osmosis filter core layer is set and filtered mistake Waste pipe is filtered, the supercooling drainpipe is connected to the filtered wastewater pipe.

6. embedded purifying drinking appliance according to claim 5, which is characterized in that the water treating module (1) further includes water tank, The water tank is connected to the cold tank (21) by water supply pipe, is equipped with water supply pump, the carbonization tank in the water supply pipe (31) carbonization tank water-level probe (39) is equipped in；

Wherein, the controller is configured that

When the carbonization tank water level of carbonization tank water-level probe (39) sensing is less than carbonization tank water level lower threshold value, control starting institute State water supply pump；

When the carbonization tank water level of carbonization tank water-level probe (39) sensing is greater than carbonization tank water level upper threshold value, institute is closed in control State water supply pump.

7. embedded purifying drinking appliance according to claim 6, which is characterized in that the water outlet and the carbon of the cold tank (21) Change and be equipped with double tanks connection water pipes between the water inlet of tank (31), double tanks connection water pipes, which branch out, is connected to cold water faucet Cold tank outlet pipe (24).

8. embedded purifying drinking appliance according to claim 6, which is characterized in that the water treating module (1) includes for pacifying Fill the filter core mounting base of the filter core, the feeder includes built-in gas cylinder (61) and for installing the built-in gas cylinder (61) Gas cylinder mounting base, the gas cylinder mounting base is arranged in the front of the filter core mounting base and is fixed at machine cavity Interior, the front panel of the machine cavity is equipped with consumptive material alias；

Wherein, the horizontal insertion installation direction that the filter core is parallel to the embedded purifying drinking appliance (100) is put, the built-in gas Bottle (61) is vertically put, and the built-in gas cylinder (61) and the filter core can pass sequentially through the consumptive material alias from described It is extracted out in machine cavity.

9. embedded purifying drinking appliance according to claim 8, which is characterized in that the water treating module (1) is close to the machine The inner sidewall of chamber is arranged, and the water tank, filter core mounting base and drainage booster pump are from top to bottom sequentially arranged.

10. embedded purifying drinking appliance according to claim 8, which is characterized in that the embedded purifying drinking appliance (100) further includes For heating the heating module (4) for coming from the purified water of the water treating module (1), the heating module (4) is arranged in described The middle part of machine cavity, the side of the heating module (4) are the water treating module (1), the other side be the refrigeration module (2) and Soda module (3) processed.

11. embedded purifying drinking appliance according to claim 4, which is characterized in that be equipped with carbonization tank in the carbonization tank (31) Cold tank temperature-sensing probe (22) is equipped in temperature-sensing probe (38) and the cold tank (21), the controller is configured that

When temperature is greater than cold tank temperature degree upper threshold value in the tank of the cold tank (21) of cold tank temperature-sensing probe (22) sensing, control System starts the compressor (51)；

When temperature is less than cold tank temperature degree lower threshold value in the tank of the cold tank (21) of cold tank temperature-sensing probe (22) sensing, control System closes the compressor (51).

12. embedded purifying drinking appliance according to claim 1, which is characterized in that the outlet pipeline of the soda module (3) processed In be equipped with normally closed soda water route high pressure valve, the controller is configured that when the trigger interval of soda water route high pressure valve Between when reaching the predetermined purge time, soda water route high pressure valve is opened in control.