CN208822393U - Embedded purifying drinking appliance - Google Patents

Abstract

The utility model belongs to household appliance technical field, disclose a kind of embedded purifying drinking appliance, the embedded purifying drinking appliance includes casing (100) and the refrigeration module and refrigerating plant that are installed in machine cavity, refrigerating plant includes the compressor (300) set gradually in coolant loop, condenser (400) and evaporator, evaporator is used to provide cold source to refrigeration module, the backplate of casing is equipped with condenser thermovent (110), the condenser radiating subassembly (500) that alignment is stacked and placed on condenser thermovent is provided on backplate, condenser is arranged close to condenser thermovent.It is arranged such, when condenser radiating subassembly operation, the air on condenser periphery can be driven towards the condenser thermovent flowing being arranged on backplate and finally from condenser thermovent discharge casing, to realize the purpose of condenser wind-cooling heat dissipating, it is advantageously ensured that condenser normal operation, the service life of condenser or even complete machine is improved, and then promotes the usage experience of user.

Description

Embedded purifying drinking appliance

Technical field

The utility model belongs to household appliance technical field, and in particular, to a kind of embedded purifying drinking appliance.

Background technique

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

Currently, there is the function of supplying low-temperature cold water to user to make embedded purifying drinking appliance also, it is arranged in complete machine and contains The refrigeration module and refrigerating plant of cold tank, refrigerating plant include the compressor, condenser and evaporation set gradually in coolant loop Device, wherein evaporator is for freezing to cold tank, and condenser is then used to pass the heat of refrigerant by way of heat exchange The air on periphery is passed, in this way, a large amount of heat will gather in the air on condenser periphery, and then to the normal of condenser Operation and service life have an impact.

In view of this, seeking how efficiently and quickly to remove the heat being gathered in condenser ambient air, Jin Ershi Existing condenser heat dissipation becomes an important research direction.

Utility model content

A kind of embedded purifying drinking appliance is provided for above-mentioned insufficient or defect, the utility model in the prior art, it can be right Condenser carries out wind-cooling heat dissipating, it is advantageously ensured that condenser normal operation, promotes the service life of condenser or even complete machine.

To achieve the above object, the utility model provides a kind of embedded purifying drinking appliance, which includes machine Shell and the refrigeration module and refrigerating plant being installed in machine cavity, the refrigerating plant include the pressure set gradually in coolant loop Contracting machine, condenser and evaporator, the evaporator are used to provide cold source to the refrigeration module, and the backplate of the casing is equipped with Condenser thermovent is provided with the condenser radiating subassembly that alignment is stacked and placed on the condenser thermovent on the backplate, The condenser is arranged close to the condenser thermovent.

Preferably, the embedded purifying drinking appliance further includes soda module processed, the evaporator successively coil be installed on it is described On the periphery wall of the cold tank of refrigeration module and the carbonization tank of the soda module processed.

Preferably, the condenser radiating subassembly is set between the condenser thermovent and the condenser, and institute State condenser thermovent, the condenser radiating subassembly and condenser alignment.

Preferably, the condenser radiating subassembly includes fan and the tubular air duct for being equipped with the fan, the wind The backside opening in road is connected with the condenser thermovent, and the front end in the air duct is connected with the condenser, the fan It is set as and the condenser synchronization job.

Preferably, the air duct is cylindrical, and the condenser thermovent includes multiple through the backplate and concentric The cyclic annular thermovent of arrangement, the backside periphery in the air duct are set on the backplate of the condenser thermovent.

Preferably, the condenser radiating subassembly includes the condenser temperature-sensing probe that fitting is installed on the condenser, The condenser temperature that the working speed of the fan is detected with the condenser temperature-sensing probe is positively correlated.

Preferably, the side panel of the casing is equipped with side air inlet, and the transverse width of the front panel of the casing is greater than The transverse width of the backplate；And/or

The bottom of the front panel of the casing is equipped with advance air port；And/or

The backplate is equipped with rear air inlet, and the back side of the backplate is equipped with positioned at the rear air inlet and described cold Partition between condenser thermovent.

Preferably, the condenser is finned cooler, in the finned cooler between adjacent fin away from From not less than 1.5mm and no more than 2.5mm.

Preferably, the condenser radiating subassembly be set as with the compressor synchronization job, the evaporator for pair The cold tank of the refrigeration module freezes, and the compressor is set as the fluid temperature accommodated in the cold tank and is higher than default upper-level threshold Start when value and the fluid temperature accommodated in the cold tank is lower than closing when presetting lower threshold value.

Preferably, the complete machine radiation air that the backplate is additionally provided with complete machine thermovent and is stacked and placed on the complete machine thermovent Fan；Wherein, complete machine temperature-sensing probe is equipped in the machine cavity, the complete machine radiator fan is set as visiting in the complete machine temperature-sensing probe Work rotation and the temperature in the machine cavity, which are lower than, when temperature in the machine cavity of survey is higher than preset maximum value presets most It stops operating when small value.

Through the above technical solutions, in the present invention, condenser thermovent, condensation are arranged on the backplate of casing Device is located in casing and arranges close to the condenser thermovent, in addition, the condensation being stacked and placed on condenser thermovent by alignment Device radiating subassembly can drive the air on condenser periphery to flow to condenser thermovent and machine is discharged from the condenser thermovent Shell, thus realize the purpose that wind-cooling heat dissipating is carried out to condenser, in this way, it is advantageously ensured that condenser normal operation, it can be substantially The service life of condenser or even complete machine is promoted, and then 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 structural schematic diagram of the embedded purifying drinking appliance of preferred embodiments of the present invention；

Fig. 2 is the complete machine explosive view of Fig. 1；

Fig. 3 is successively alignment is stacked with the knot of condenser radiating subassembly and condenser on the overleaf condenser thermovent of plate Structure schematic diagram；

Fig. 4 is the Structure explosion diagram of Fig. 3.

Description of symbols:

100 casing, 300 compressor

400 condenser, 500 condenser radiating subassembly

600 complete machine radiator fans

110 condenser thermovent, 120 side air inlet

510 fan, 520 air duct

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, and referring to figs. 1 to Fig. 3, which includes casing 100 And it is installed on refrigeration module and refrigerating plant in machine cavity, refrigerating plant includes the compressor set gradually in coolant loop 300, condenser 400 and evaporator, evaporator are used to provide refrigeration module cold source, and the backplate of casing 100 is equipped with condenser Thermovent 110 is provided with the condenser radiating subassembly 500 that alignment is stacked and placed on condenser thermovent 110, condenser on backplate 400 are arranged close to condenser thermovent 110.Wherein, in embedded purifying drinking appliance be arranged refrigeration module enable complete machine to Low-temperature cold water is supplied at family, in addition, can also set in complete machine to enable embedded purifying drinking appliance to supply boiling water or even warm water to user Heating module is set, enables embedded purifying drinking appliance that the drinking water of different temperatures is made in the case where the difference of user drinks requirement.

In the technical scheme, condenser thermovent 110 is provided on the backplate of casing 100, in refrigerating plant Condenser 400 is arranged close to the condenser thermovent 110, and alignment is stacked with condenser heat dissipation on condenser thermovent 110 Component 500, wherein in condenser 500 operation of radiating subassembly, the air on 400 periphery of condenser can be driven towards condenser Thermovent 110 flows, and then flows out through the condenser thermovent 110 from backplate, in this way, largely accumulating in condenser 400 weeks Heat in the air of side can be removed as air is flowed towards condenser thermovent 110, to realize to condenser 400 The purpose of wind-cooling heat dissipating is carried out, in this way, it is advantageously ensured that 400 normal operation of condenser, and then promote condenser 400 or even complete machine Service life, the usage experience of user can be greatlyd improve.

Wherein, condenser radiating subassembly 500 can there are many set-up modes appropriate, such as condenser radiating subassembly 500 It include wind including tubular air duct 520 and the fan 510 being placed in the tubular air duct 520 or condenser radiating subassembly 500 It fans 510 and does not include the air duct 520 etc. for accommodating fan 510, as long as being stacked with by being aligned on condenser thermovent 110 Condenser radiating subassembly 500 flows so as to the intracavitary gas of driving machine towards the condenser thermovent 110 being arranged on backplate It is dynamic, and then flowed out from the condenser thermovent 110.

In addition, condenser radiating subassembly 500 can be stacked and placed on the back side of backplate, before can also being stacked and placed on backplate On face, wherein that plane being located in machine cavity in backplate is referred to before backplate, and what the back side of backplate referred to It is that plane being located at outside machine cavity in backplate.Preferably, to avoid complete machine assembly from entering wall or cabinet during or During complete machine transport, occur damaging the situation of condenser radiating subassembly 500, condenser heat dissipation group due to external force Part 500 should be set in casing 100.In addition, to enable the air on 400 periphery of condenser in condenser radiating subassembly 500 Under effect, condenser thermovent 110 quickly and is swimmingly flowed to, and then flow out through the condenser thermovent 110 from backplate, ginseng According to Fig. 2 to Fig. 4, condenser radiating subassembly 500 should be set between condenser thermovent 110 and condenser 400, and condenser dissipates Hot mouth 110, condenser radiating subassembly 500 and condenser 400 are aligned.

It should be noted that the mode arranged close to condenser thermovent 110 of condenser 400 can there are many, such as when When condenser radiating subassembly 500 is stacked and placed on the back side of backplate, condenser 400 can be directly stacked and placed on before backplate On, or with before backplate between have gap；Or before condenser radiating subassembly 500 is stacked and placed on backplate When on face, condenser 400 can be directly stacked and placed on condenser radiating subassembly 500, or with condenser radiating subassembly 500 Between have certain gap etc., as long as 400 periphery of condenser can be driven under the action of condenser radiating subassembly 500 Air is flowed towards condenser thermovent 110.

Preferably, condenser radiating subassembly 500 includes fan 510 and the tubular air duct 520 for being equipped with fan 510, ginseng According to Fig. 2 to Fig. 4, the backside opening in air duct 520 is connected with condenser thermovent 110.Further, the front end in air duct 520 with Condenser 400 is connected, i.e., condenser radiating subassembly 500, condenser 400 stack gradually the condenser thermovent 110 in backplate On, in this way, being more advantageous to the air on 400 periphery of condenser quickly and swimmingly flowing to condenser thermovent 110, to substantially mention Condenser radiating subassembly 500 is risen for the wind-cooling heat dissipating effect of condenser 400.

Specifically, condenser thermovent 110 can be made of the cyclic annular thermovent of multiple arranged concentrics, can also directly be The round shape thermovent etc. of one perforation backplate, no longer enumerates herein.Preferably, referring to Figure 2 to Figure 4, air duct 520 is in circle Tubular, condenser thermovent 110 include multiple cyclic annular thermovents for running through backplate and arranged concentric, the backside week in air duct 520 Edge is set on the backplate of condenser thermovent 110.

Preferably, to ensure that casing can be discharged in time and promptly in the heat given out when 400 operation of condenser 100, when setting fan 510 to 400 synchronization job of condenser, the i.e. starting of condenser 400,510 operation of fan is to condensation Device 400 carries out forced convertion heat dissipation, and when condenser 400 is out of service, corresponding floor fan 510 also stops rotating.

In addition, due to compressor 300, condenser 400 and evaporator synchronization job in refrigerating plant, it is true The heat generated when cold insulation 400 operation of condenser can remove in time, can set condenser radiating subassembly 500 to condenser 400 synchronous start and stop namely condenser radiating subassembly 500 be set as also with 300 synchronization job of compressor.Wherein, evaporator is used for To the cold tank refrigeration of refrigeration module, and to ensure that the low-temperature cold water exported from cold tank has more stationary temperature section, compression Machine 300 is set as the fluid temperature for starting and accommodating in cold tank when the fluid temperature accommodated in cold tank is higher than default upper threshold value It is closed when lower than default lower threshold value, i.e., when the temperature of cold pot liquid is higher than default upper threshold value, starts 300 operation of compressor, And when the temperature of cold pot liquid is lower than default lower threshold value, shut down compressor 300.Preferably, it presets upper threshold value and is greater than setting Lower threshold value, and default upper threshold value should be not more than 10 DEG C, setting lower threshold value should be not less than 3 DEG C.Further, default upper threshold value should not Greater than 9 DEG C, setting lower threshold value should be not less than 6 DEG C

In existing embedded purifying drinking appliance, usually air outlet is set on the front panel of casing 100, in this way, from going out The hot wind of air port extraction will be directly entered the environment where user, especially in the hot summer, can largely effect on user Usage experience.Certainly, also there is the embedded purifying drinking appliance of part that air outlet is set to the side panel of casing 100 (such as left side now Panel, right panel) on, but since the gap between side panel and wall or cabinet is smaller, radiating efficiency is lower.Therefore, will Condenser thermovent 110 is set on the backplate of casing 100, referring to Figure 2 to Figure 4, the hot wind of extraction can not only be avoided straight Connect the environment where flowing to user, but also can radiating efficiency with higher, the usage experience of user can be greatlyd improve.

Preferably, referring to Figures 1 and 2, the side panel of casing 100 is equipped with side air inlet 120, in this way, when condenser dissipates When hot 500 operation of component, so that it may drive gas from side air inlet 120 to flow to condenser thermovent 110 to form side convection current runner, In this way, the component (such as compressor 300, referring to Fig. 3) that other needs such as condenser 400 radiate is set to the side convection current runner In, so that it may so that these components have preferable wind-cooling heat dissipating effect.In addition, to make to be formed between side panel and cabinet or wall The transverse width of the front panel of casing 100 should be set greater than the transverse width of backplate by vent passages.

In addition, advance air port is equipped in the bottom of the front panel of casing 100, in this way, when condenser radiating subassembly 500 starts When, the complete machine convection current runner through entire machine cavity can be formed between advance air port and condenser thermovent 110, in such manner, it is possible to The heat that the component of different zones in machine cavity distributes is discharged from casing 100, is conducive to complete machine heat dissipation.

Optionally, backplate is equipped with rear air inlet, and the back side of backplate is equipped with radiates positioned at rear air inlet and condenser Partition between mouth 110.So set, in condenser 500 operation of radiating subassembly, can also in machine cavity rear air inlet with it is cold Local convection runner is formed between condenser thermovent 110, is also beneficial to carry out forced convertion heat dissipation to condenser 400.Wherein, exist Partition is set between back air inlet and condenser thermovent 110, in such manner, it is possible to effectively prevent extracting out from condenser thermovent 110 Hot wind occur directly from back air inlet pass back into the situation in machine cavity, be more advantageous to the wind-cooling heat dissipating of condenser 400.

It should be noted that above-mentioned advance air port, side air inlet 120 and rear air inlet can be with different combining forms It is arranged on the casing 100 of the embedded purifying drinking appliance of the utility model, specific location and the number view of each air inlet are practical to be dissipated Depending on heat request, and to should also be as belonging to this practical new for the various combining forms in air port of advancing, side air inlet 120 and rear air inlet Within the scope of the considerations of type.

Preferably, condenser radiating subassembly 500 includes the condenser temperature-sensing probe that fitting is installed on condenser 400, such as This more can delicately detect and obtain 400 real time temperature of condenser.Further, the working speed of fan 510 be with it is cold 400 temperature of condenser of condenser temperature-sensing probe detection is positively correlated, in this way, the working speed of fan 510 is with 400 temperature of condenser The rising of degree and accelerate, otherwise the working speed of fan 510 can also slow down with the decline of 400 temperature of condenser, be conducive to Condenser 400 precisely radiates, and then the energy consumption of condenser radiating subassembly 500 or even complete machine can be greatly reduced.

In addition, condenser 400 is finned cooler, referring to Fig. 3 and Fig. 4, and in order to preferably remove accumulate in it is adjacent Fin between air in heat, and then reach preferable 400 wind-cooling heat dissipating effect of condenser, it is preferable that finned cold The distance between adjacent fin should be set as not less than 1.5mm and no more than 2.5mm in condenser.

Preferably, the complete machine radiator fan 600 that backplate is additionally provided with complete machine thermovent and is stacked and placed on complete machine thermovent, ginseng According to Fig. 1 and Fig. 2, in this way, obtain other heat generating components (such as control panel) in complete machine far from condenser thermovent 110 also can To preferable heat dissipation effect.Wherein, complete machine temperature-sensing probe is equipped in machine cavity, complete machine radiator fan 600 is set as in complete machine temperature-sensitive Work rotation and the temperature in machine cavity, which are lower than, when temperature in the machine cavity of probe detection is higher than preset maximum value presets minimum It stops operating when value.As it can be seen that no matter at this time whether condenser radiating subassembly 500 is in starting or the state closed, complete machine heat dissipation Fan 600 can ensure that machine cavity temperature maintains comparatively stable state, be conducive to the job stability for improving complete machine.Tool Body, preset maximum value is greater than predetermined minimum, and preset maximum value should be not more than 55 DEG C, and predetermined minimum should be not less than 40 ℃。

Specifically, condenser temperature-sensing probe, complete machine temperature-sensing probe can be thermocouple temperature sensor, also can choose heat The other kinds of temperature sensor such as quick resistance temperature sensor, no longer enumerates herein.

Preferably, embedded purifying drinking appliance further includes soda module processed, and evaporator successively coils and is installed on refrigeration module Evaporator on the periphery wall of cold tank and the carbonization tank of soda module processed namely in refrigerating plant is simultaneously to cold tank and carbonization tank system It is cold.

Specifically, the pure water from water treating module is first passed through in the cold tank of refrigeration module, is installed on cold tank by coiling Periphery wall on condenser 400 freeze to cold tank, cold water a part obtained is passed through in carbonization tank in cold tank, one Lease making cold water faucet is wandered into the liquid holding cup body of user.In addition, the carbonization tank in soda module processed is in addition to being equipped with water inlet pipe To access the cold water for carrying out self cooling tank, it is also connected with the admission line for being connected with carbon dioxide gas, carbonization tank is installed on using coiling 400 pairs of carbonization tanks of condenser on periphery wall freeze, and input carbon dioxide gas into carbonization tank by admission line, into And soda water is made in carbonization tank, and manufactured soda water is flowed out through soda water faucet from complete machine.Wherein, cold water faucet Can integrate with soda water faucet as a shared faucet, when user need to take cold water, the cold water of Lai Zileng tank from this Faucet outflow is shared, and when user need to drink soda water, the soda water from carbonization tank can also share faucet stream from this Into the liquid holding cup body of user.It should be noted that as through pure water prepared by the filter core layering in water treating module The temperature difference between room temperature pure water (about 25 DEG C), with water temperature (about 4 DEG C) of soda water mouthfeel when best is larger, because This then again freezes so that liquid in tank to carbonization tank by evaporator if room temperature pure water is directly passed through carbonization tank Temperature is down to about 4 DEG C, and the required activity duration expended is longer.Certainly, the pure water from water treating module may be without Cold tank and be passed directly into carbonization tank in, i.e., the pure water from water treating module each lead into cold tank and carbonization tank in

Specifically, according to other compositions of the embedded purifying drinking appliance in the utility model embodiment and effect for ability All be for the those of ordinary skill in domain it is known, in order to reduce redundancy, be not repeated herein.

The above is only the preferred embodiments of the present utility model only, is not intended to limit the utility model, all practical at this Within novel spirit and principle, any modification, equivalent replacement, improvement and so on should be included in the guarantor of the utility model Within the scope of shield.

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 (10)

1. a kind of embedded purifying drinking appliance, which is characterized in that the embedded purifying drinking appliance includes casing (100) and is installed on machine cavity In refrigeration module and refrigerating plant, the refrigerating plant includes compressor (300), the condenser set gradually in coolant loop (400) and evaporator, the evaporator are used to provide cold source to the refrigeration module, and the backplate of the casing (100) is equipped with Condenser thermovent (110) is provided with the condenser that alignment is stacked and placed on the condenser thermovent (110) on the backplate Radiating subassembly (500), the condenser (400) are arranged close to the condenser thermovent (110).

2. embedded purifying drinking appliance according to claim 1, which is characterized in that the embedded purifying drinking appliance further includes soda processed Module, the evaporator successively coil the periphery of the carbonization tank of the cold tank for being installed on the refrigeration module and the soda module processed On wall.

3. embedded purifying drinking appliance according to claim 1, which is characterized in that condenser radiating subassembly (500) setting Between the condenser thermovent (110) and the condenser (400), and the condenser thermovent (110), the condensation Device radiating subassembly (500) and the condenser (400) alignment.

4. embedded purifying drinking appliance according to claim 3, which is characterized in that the condenser radiating subassembly (500) includes Fan (510) and the tubular air duct (520) for being equipped with the fan (510), the air duct (520) backside opening with it is described Condenser thermovent (110) is connected, and the front end of the air duct (520) is connected with the condenser (400), the fan (510) it is set as and the condenser (400) synchronization job.

5. embedded purifying drinking appliance according to claim 4, which is characterized in that the air duct (520) is cylindrical, described cold Condenser thermovent (110) includes multiple cyclic annular thermovents for running through the backplate and arranged concentric, the back of the air duct (520) End periphery is set on the backplate of the condenser thermovent (110).

6. embedded purifying drinking appliance according to claim 4, which is characterized in that the condenser radiating subassembly (500) includes It is bonded the condenser temperature-sensing probe being installed on the condenser (400), the working speed of the fan (510) and the condensation The condenser (400) temperature of device temperature-sensing probe detection is positively correlated.

7. embedded purifying drinking appliance according to claim 1, which is characterized in that the side panel of the casing (100) is equipped with Side air inlet (120), the transverse width of the front panel of the casing (100) are greater than the transverse width of the backplate；And/or Person,

The bottom of the front panel of the casing (100) is equipped with advance air port；And/or

The backplate is equipped with rear air inlet, and the back side of the backplate, which is equipped with, is located at the rear air inlet and the condenser Partition between thermovent (110).

8. embedded purifying drinking appliance according to claim 1, which is characterized in that the condenser (400) is finned condensation Device, the distance between adjacent fin not less than 1.5mm and is not more than 2.5mm in the finned cooler.

9. embedded purifying drinking appliance according to claim 1, which is characterized in that condenser radiating subassembly (500) setting For with the compressor (300) synchronization job, the evaporator is used to freeze to the cold tank of the refrigeration module, the compressor (300) it is set as starting when the fluid temperature accommodated in the cold tank is higher than default upper threshold value and be accommodated in the cold tank Fluid temperature is closed when being lower than default lower threshold value.

10. embedded purifying drinking appliance described according to claim 1~any one of 9, which is characterized in that the backplate is also set The complete machine radiator fan (600) for having complete machine thermovent and being stacked and placed on the complete machine thermovent；Wherein, it is equipped in the machine cavity whole Machine temperature-sensing probe, the complete machine radiator fan (600) are set as the temperature in the machine cavity that the complete machine temperature-sensing probe detects Work rotation and when temperature in the machine cavity is lower than predetermined minimum stops operating when degree is higher than preset maximum value.