CN208920434U - Air conditioner type washs electric appliance - Google Patents
Air conditioner type washs electric appliance Download PDFInfo
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- CN208920434U CN208920434U CN201821512877.9U CN201821512877U CN208920434U CN 208920434 U CN208920434 U CN 208920434U CN 201821512877 U CN201821512877 U CN 201821512877U CN 208920434 U CN208920434 U CN 208920434U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B40/00—Technologies aiming at improving the efficiency of home appliances, e.g. induction cooking or efficient technologies for refrigerators, freezers or dish washers
Abstract
The utility model discloses a kind of air conditioner types to wash electric appliance, including washing system, air-conditioning system and regenerative structure.Washing system includes cavity and washing pump, washing pump passes through piping connection cavity, air-conditioning system includes connecting to form the evaporator of closed coolant loop, compressor, the first heat-exchanger rig, the second heat-exchanger rig and throttling set, evaporator is configured to carry out heat exchange by refrigerant and air so that air forms cold air, first heat-exchanger rig is configured to store the heat released when refrigerant condensation and the air being discharged using heat from cavity, and the air being discharged out of cavity returns to cavity after the heating of the first heat-exchanger rig.Regenerative structure is configured to store the heat exchanged from the second heat-exchanger rig and the cleaning solution for utilizing heat for washing system.In this way, the heat that air-conditioning system can be generated in process of refrigerastion stores and utilizes the heat cleaning solution of storage and improve drying effect, the energy consumption of air conditioner type washing electric appliance is reduced.
Description
Technical field
The utility model relates to field of home appliance technology, in particular to a kind of air conditioner type washs electric appliance.
Background technique
In the related art, usually cleaning solution is heated using electric heating tube in dish-washing machine washing process, then
Tableware is washed, in addition, generally either using electric heating tube intracorporal to chamber using natural air drying in the drying process
Air is heated dry to achieve the purpose that.However, on the one hand, when being heated using electric heating tube to cleaning solution or air, function
Rate is larger, causes energy consumption when dishwasher into operation larger, on the other hand, will lead to drying using natural air drying in the drying process
Efficiency is lower, reduces user experience.
Utility model content
The utility model provides a kind of air conditioner type washing electric appliance.
The air conditioner type of the embodiments of the present invention washs electric appliance
Washing system, the washing system include cavity and washing pump, cavity described in the washing pump piping connection;
Air-conditioning system, the air-conditioning system include connecting to form the evaporator of closed coolant loop, compressor, first change
Thermal, the second heat-exchanger rig and throttling set, the evaporator be configured to carry out heat exchange by refrigerant and air so that
The air forms cold air, and first heat-exchanger rig is configured to store the heat released when refrigerant condensation and utilization
The air that the heat is discharged from the cavity, the air being discharged out of described cavity are heated through first heat-exchanger rig
After return to the cavity;With
Regenerative structure, the regenerative structure can carry out heat exchange, the second heat exchange dress with second heat-exchanger rig
It sets and is configured to carry out heat exchange with refrigerant and transfers heat to the regenerative structure, the regenerative structure is configured to store
The heat exchanged from second heat-exchanger rig and the cleaning solution for utilizing the heat for the washing system.
In the air conditioner type washing electric appliance of above embodiment, the first heat-exchanger rig can effectively freeze air-conditioning system
The partial heat generated in the process stores, and can use the air that heat is discharged out of cavity, after being heated
Air further return to cavity, cavity is dried, improves drying efficiency, improves user experience.Meanwhile second exchanges heat
The partial heat that device can also generate air-conditioning system in process of refrigerastion passes to regenerative structure, regenerative structure it is available with
The heat of second heat-exchanger rig exchange is used for the cleaning solution of washing system, reduces air conditioner type washing electric appliance in washing process
In energy consumption.In addition, the air conditioner type washing electric appliance of the utility model embodiment can individually freeze, user can satisfy
Refrigeration demand in kitchen activity, improves user experience.
In some embodiments, first heat-exchanger rig includes cabinet, refrigerant flow pipe and is arranged in the case
The phase change heat storage material contacted in vivo and with the refrigerant flow pipe, the refrigerant flow pipe wear the cabinet.
In some embodiments, the air conditioner type washing electric appliance includes dry air duct, the first heat-exchanger rig setting
In the dry air duct, the dry air duct is connected to the cavity, different location shape of the dry air duct in the cavity
At there is air inlet and air outlet, the intracorporal air of chamber enters in the dry air duct and in the drying through the gas outlet
The cavity is entered by the air inlet after the heating of the first heat-exchanger rig in air duct.
In some embodiments, first heat-exchanger rig includes air heat-exchange runner, and the air heat-exchange runner connects
Lead to the dry air duct, the air in the dry air duct can flow through the air heat-exchange runner by first heat-exchanger rig
Heating.
In some embodiments, the air conditioner type washing electric appliance includes:
The blower in the dry air duct is set, and the blower is used to accelerate the gas flow rate in the dry air duct;With/
Or
Switching device, the switching device are arranged in the dry air duct, and the switching device is for being turned on and off
The dry air duct.
In some embodiments, the regenerative structure includes shell and heat storage unit, and the heat storage unit is located at the shell
Interior, second heat-exchanger rig is set in the shell and contacts with heat conduction with the heat storage unit, the air conditioner type washing electricity
Device includes inlet tube, and the inlet tube connects the cavity, and the inlet tube wears the shell and thermally conductive with the heat storage unit
Ground contact.
In some embodiments, the heat storage unit includes phase change heat storage material, the phase change heat storage material and described the
Two heat-exchanger rigs and the inlet tube connect with heat conduction.
In some embodiments, the regenerative structure includes shell, is formed in the shell for storing described wash
Wash the thermal of liquid, thermal described in the cavity piping connection, thermal described in the second heat-exchanger rig piping connection with
Constitute the circulation loop of the cleaning solution.
In some embodiments, second heat-exchanger rig includes that heat exchanger tube and refrigerant for conveying the refrigerant are defeated
Pipe is sent, the heat exchanger tube is connect with heat conduction with the refrigerant delivery pipe, and thermal described in the heat exchanger tube piping connection is to constitute
The circulation loop.
In some embodiments, the pipeline between second heat-exchanger rig and the thermal is equipped with circulating pump,
The circulating pump is used to open in air-conditioning system operation, and when the air-conditioning system is closed, closes.
In some embodiments, the pipeline between the cavity and the thermal is equipped with liquid feeding pump, the feed liquor
The cleaning solution in the thermal can be delivered to the cavity by pump, and the liquid feeding pump can also be intracorporal by the chamber
The cleaning solution is delivered to the thermal.
In some embodiments, the pipeline between the cavity and the thermal is equipped with shut-off valve, the cut-off
Valve is used in washing system operation, the pipeline between the cavity and the thermal is connected, and be in the washing
When system is closed, the pipeline between the cavity and the thermal is truncated.
In some embodiments, first heat-exchanger rig and second heat-exchanger rig be connected on the compressor and
Between the throttling set.
In certain embodiments, the refrigerant passes through the second heat exchange dress after first flowing through first heat-exchanger rig
Set or the refrigerant first flow through second heat-exchanger rig after pass through first heat-exchanger rig.
In certain embodiments, first heat-exchanger rig and second heat-exchanger rig are connected in parallel on the compressor and institute
It states between throttling set.
In certain embodiments, the refrigerant flows only through first heat-exchanger rig or the refrigerant flow only through it is described
Second heat-exchanger rig or the refrigerant flow through first heat-exchanger rig and second heat-exchanger rig.
The additional aspect and advantage of the utility model will be set forth in part in the description, partially will be from following description
In become obvious, or recognized by the practice of the utility model.
Detailed description of the invention
In description of the above-mentioned and/or additional aspect and advantage of the utility model from combination following accompanying drawings to embodiment
It will be apparent and be readily appreciated that, in which:
Fig. 1 is the structural schematic diagram of the air conditioner type washing electric appliance of the embodiments of the present invention;
Fig. 2 is another structural schematic diagram of the air conditioner type washing electric appliance of the embodiments of the present invention;
Fig. 3 is the structural schematic diagram of the first heat-exchanger rig of the air conditioner type washing electric appliance of the embodiments of the present invention;
Fig. 4 is the another structural schematic diagram of the air conditioner type washing electric appliance of the embodiments of the present invention;
Fig. 5 is another structural schematic diagram of the air conditioner type washing electric appliance of the embodiments of the present invention;
Fig. 6 is another structural schematic diagram of the air conditioner type washing electric appliance of the embodiments of the present invention.
Main element symbol description: air conditioner type washs electric appliance 100, washing system 10, cavity 11, cup 111, washing pump
12, gushing arm component 13, air-conditioning system 20, evaporator 21, compressor 22, the first heat-exchanger rig 23, cabinet 231, refrigerant runner pipe
Road 232, air heat-exchange runner 233, phase change heat storage material 234, the second heat-exchanger rig 24, throttling set 25, the first shut-off valve 26,
Dry air duct 27, air inlet 271, gas outlet 272, the first blower 28, regenerative structure 30, shell 31, thermal 32, circulation loop
33, the second shut-off valve 34, circulating pump 35, liquid feeding pump 36, the second inlet tube 37, feed liquor switch 40, external inlet pipe 50, air duct
System 60, the second blower 61, electric heater unit 70.
Specific embodiment
The embodiments of the present invention is described below in detail, the example of the embodiment is shown in the accompanying drawings, wherein
Same or similar label indicates same or similar element or element with the same or similar functions from beginning to end.Lead to below
It crosses the embodiment being described with reference to the drawings to be exemplary, is only used for explaining the utility model, and should not be understood as practical to this
Novel limitation.
In the description of the present invention, it should be understood that term " center ", " longitudinal direction ", " transverse direction ", " length ", " width
Degree ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside",
The orientation or positional relationship of the instructions such as " clockwise ", " counterclockwise " be based on the orientation or positional relationship shown in the drawings, be only for
Convenient for description the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have specifically
Orientation is constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.In addition, term " first ",
" second " is used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance or implicitly indicates indicated technology
The quantity of feature.Define " first " as a result, the feature of " second " can explicitly or implicitly include it is one or more
The feature.The meaning of " plurality " is two or more in the description of the present invention, unless otherwise clearly specific
It limits.
In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified
Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally
Connection.It can be mechanical connection, be also possible to be electrically connected.Can be directly connected, can also indirectly connected through an intermediary,
It can be the connection inside two elements or the interaction relationship of two elements.For those of ordinary skill in the art and
Speech, can understand the concrete meaning of above-mentioned term in the present invention as the case may be.
Fig. 1 and Fig. 2 are please referred to, the air conditioner type washing electric appliance 100 of the utility model embodiment includes washing system 10, sky
Adjusting system 20 and regenerative structure 30.Washing system 10 includes cavity 11, washing pump 12,12 piping connection cavity 11 of washing pump.
Air-conditioning system 20 include connection with form closed coolant loop evaporator 21 (see Fig. 1), compressor 22 is (see figure
1), the first heat-exchanger rig 23 (see Fig. 1), the second heat-exchanger rig 24 (see Fig. 1) and throttling set 25 (see Fig. 1), 21 quilt of evaporator
It is configured to carry out heat exchange so that air forms cold air by refrigerant and air, the first heat-exchanger rig 23 is configured to store cold
The heat the released and air being discharged out of cavity 11 using heat when matchmaker condenses, the air being discharged out of cavity 11 is through the
Cavity is returned after the heating of one heat-exchanger rig 23.Regenerative structure 30 can carry out heat exchange, the second heat exchange with the second heat-exchanger rig 24
Device 24 is configured to carry out heat exchange with refrigerant and transfers heat to regenerative structure 30, and regenerative structure 30 is configured to store
The heat exchanged from the second heat-exchanger rig 24 and the cleaning solution for utilizing heat for washing system 10.
In the air conditioner type washing electric appliance 100 of the utility model embodiment, the first heat-exchanger rig 23 can effectively will be empty
The partial heat that adjusting system 20 generates in process of refrigerastion stores, and in the drying process, the first heat-exchanger rig 23 can benefit
The air being discharged out of cavity 11 with the heat of storage, the air after being heated further returns to cavity 11, to cavity 11
Interior article is dried, and improves drying efficiency, improves user experience.Meanwhile second heat-exchanger rig 24 can also be by air-conditioning
The partial heat that system generates in process of refrigerastion passes to regenerative structure 30, and regenerative structure 30 is available with the second heat-exchanger rig
The heat of 24 exchanges is used for the cleaning solution of washing system 10, reduces air conditioner type washing electric appliance 100 in washing process
Energy consumption.In addition, the air conditioner type washing electric appliance 100 of the utility model embodiment can individually freeze, user can satisfy
Refrigeration demand in kitchen activity, improves user experience.
It should be noted that regenerative structure 30 is configured to store the heat exchanged from the second heat-exchanger rig 24 and utilizes heat
Amount heating is used for the cleaning solution of washing system 10, can refer to that regenerative structure 30 first stores heat, needs in cleaning solution
It is heated when heating, is also possible to that heat is directly stored in cleaning solution (i.e. accumulation of heat Jie of regenerative structure 30
Matter is cleaning solution, and regenerative structure 30 is stored heat by cleaning solution), it is directly to wash when washing system 10 needs hot water
It washs system 10 and the cleaning solution after heating is provided.
Specifically, as depicted in figs. 1 and 2, in the present embodiment, air conditioner type washing electric appliance 100 includes dry air duct
27, in dry air duct 27, dry air duct 27 is connected to inside cavity 11 setting of the first heat-exchanger rig 23, and dry air duct 27 is in chamber
The different location of body 11 is respectively formed with air inlet 271 and gas outlet 272, and the air in cavity 11 enters dry through gas outlet 272
In dry air duct 27 and by being returned inside cavity 11 after the heating of the first heat-exchanger rig 23 by air inlet 271.
In addition, washing system 10 further includes gushing arm component 13, interior gushing arm component 13 is arranged in cavity 11, gushing arm component 13
For carrying out spray washing to the article being located in cavity 11,11 lower part of cavity is formed with cup 111, for assembling in cavity 11
Cleaning solution, cup 111 can be mounted on the lower part of cavity 11 after molding seperated with cavity 11, be also possible under cavity 11
Portion is directly integrally formed with cup 111.Washing pump 12 is arranged outside cavity 11, and washing pump 12 passes through 111 He of piping connection cup
Water in cup 111 can be pumped to gushing arm component 13 to carry out to the article in cavity 11 by gushing arm component 13, washing pump 12
Washing.
When being freezed using air conditioner type washing electric appliance 100, air-conditioning system 20 is opened, and the refrigerant in coolant loop is pressed
Contracting machine 22 is compressed into the gas coolant of high temperature and pressure, and then refrigerant is delivered to the first heat-exchanger rig 23 and second from compressor 22
The gas coolant of heat-exchanger rig 24, high temperature and pressure can liquefy in the first heat-exchanger rig 23 and the second heat-exchanger rig 24 respectively
At throttling set 25 is entered after the liquid coolant of cryogenic high pressure, the liquid coolant of cryogenic high pressure becomes after throttling set 25
The gas-liquid two-phase of low temperature, subsequently into the gas coolant of 21 interior suction thermosetting low-temp low-pressure of evaporator, then, evaporation
The gas coolant of low-temp low-pressure in device 21 enters in compressor 22 to be compressed again, into next circulation.
Because the gas coolant of high temperature and pressure can release heat when flowing through the first heat-exchanger rig 23 and being condensed, first is changed
Thermal 23 can store heat.Equally, refrigerant can also release heat when flowing through the second heat-exchanger rig 24 and being condensed
Amount, since regenerative structure 30 connects the second heat-exchanger rig 24 with heat conduction, the heat that refrigerant is released when condensing it is transferable and store to
Regenerative structure 30, regenerative structure 30 can use heat the washing for washing system 10 exchanged with the second heat-exchanger rig 24
Liquid is washed, to achieve the purpose that store the heat generated in process of refrigerastion and utilize heat cleaning solution.It is understood that
The heat for flowing through the refrigerant absorption of evaporator 21 may be from air, and in this process, the air for flowing through evaporator 21 is changing
Air conditioner type washing electric appliance 100 can be discharged to achieve the effect that air conditioner refrigerating after forming cold air after heat.
When needing to be washed using hot water, regenerative structure 30 can use the heat cleaning solution of storage, or
It is directly that washing system 10 provides heated cleaning solution (heat storage medium in regenerative structure 30 is water).Washing after being heated
It washs liquid to enter in cup 111, cleaning solution heated in cup 111 is constantly passed through pipeline circulation conveying gushing arm by washing pump 12
Each gushing arm of component 13, to achieve the purpose that clean article.In the example of fig. 1 and 2, gushing arm component 13 has one
A gushing arm.In other embodiments, the gushing arm quantity of gushing arm component 13 can be adjusted specifically, be not specifically limited herein.At this
In the example of utility model, it is air conditioner type dish-washing machine that air conditioner type, which washs electric appliance 100, with gushing arm component 13.In other examples
In, air conditioner type, which washs electric appliance 100, can omit gushing arm component for the electric appliance of the water such as air conditioner type washing machine, air conditioner type washing machine
13。
When needing that the article in cavity 11 is dried after the completion of washing, the air in cavity 11 can be from gas outlet
272 enter in dry air duct 27, and the heat stored in the first heat-exchanger rig 23 in dry air duct 27 can be to dry wind
Air in road 27 is heated, and then, the air after being heated is come back in cavity 11 by air inlet 271 to improve
Drying efficiency.In the example of fig. 1, the dotted arrow in dry air duct 27 indicates the flow direction of air in dry air duct 27.
It should be noted that above-mentioned cleaning solution can be the mixed liquor of water or water and detergent, in following implementation
When the identical and similar explanation of middle appearance or description, explanation herein can also be joined to understand.In the following embodiments, with
Cleaning solution be water for be illustrated.
In the present embodiment, the refrigerant for flowing through evaporator 21 can be absorbed the heat in the air for flowing through evaporator 21 from
And the gas coolant of low-temp low-pressure is formed, tube-fin evaporator or micropassage type evaporator can be used in evaporator 21, does not make specifically
Limitation.Compressor 22 can use horizontal compressor 22 or vertical compressor 22, and compressor 22 can be used for compressing through evaporator
21 evaporate the gas coolant of formation to obtain the gas coolant of high temperature and pressure.
Throttling set 25 can be expansion valve, condense after exchanging heat with the first heat-exchanger rig 23 and the second heat-exchanger rig 24
The liquid refrigerants of the cryogenic high pressure of formation becomes the misty hydraulic cold of low-temp low-pressure after the throttling of the throttle orifice of expansion valve
Matchmaker creates conditions for the evaporation of refrigerant.Certainly, throttling set 25 or other types, such as capillary etc. are not made specifically
Limitation.
Referring to Fig. 1, in the above-described embodiment, the first heat-exchanger rig 23 and the second heat-exchanger rig 24 are connected on pressure
Between contracting machine 22 and throttling set 25.
Specifically, in the example of fig. 1, the first heat-exchanger rig 23 and the second heat-exchanger rig 24 are connected on 22 He of compressor
Between throttling set 25, refrigerant passes through the first heat-exchanger rig 23 after first flowing through the second heat-exchanger rig 24.In other words, refrigerant is first
It exchanges heat again with the first heat-exchanger rig 23 with after the heat exchange of the second heat-exchanger rig 24.In this way, the second heat-exchanger rig 24 and first changes
The heat that thermal 23 is released when can condense refrigerant absorption as much as possible.
It is understood that in some embodiments, refrigerant passes through after can also first flowing through the first heat-exchanger rig 23
Second heat-exchanger rig 24, specifically with no restriction.
Fig. 2 is please referred to, in some embodiments, the first heat-exchanger rig 23 and the second heat-exchanger rig 24 are connected in parallel on compression
Between machine 22 and throttling set 25.
Specifically, in the illustrated example shown in fig. 2, refrigerant shunts after flowing through compressor 22, flows separately through the first heat exchange dress
Set 23 and second heat-exchanger rig 24.In Fig. 2, refrigerant flows through the first heat-exchanger rig 23 and the second heat-exchanger rig 24, and refrigerant can
To carry out heat exchange with the first heat-exchanger rig 23 and the second heat-exchanger rig 24 simultaneously.At this point, the first heat-exchanger rig 23 and accumulation of heat knot
Structure 30 is in accumulation of heat operating condition.In other words, refrigerant condensation release heat both can by the first heat-exchanger rig 23 store with
Carry out the air being discharged out of cavity 11 in heat drying process, regenerative structure 30 can also be passed to by the second heat-exchanger rig 24
To be used to heat the cleaning solution for washing system 11.
It is understood that in other embodiments, being connected in parallel in the first heat-exchanger rig 23 and the second heat-exchanger rig 24
It, can be in the coolant path and between the first heat-exchanger rig 23 and compressor 22 when between compressor 22 and throttling set 25
It is arranged on coolant path between two heat-exchanger rigs 24 and compressor 22 valve (not shown go out).User can pass through control valve
Switch flow only through the first heat-exchanger rig 23 controlling refrigerant or flow only through the second heat-exchanger rig 24.
When refrigerant flows only through the first heat-exchanger rig 23, refrigerant is only condensed in the first heat-exchanger rig 23.It first changes at this time
Thermal 23 is in accumulation of heat operating condition, and regenerative structure 30 is not at accumulation of heat operating condition.First heat-exchanger rig 23 stores heat in the process
Amount, in the drying process, the heat in the first heat-exchanger rig 23 can be used to heat the air being discharged out of cavity 11.It that is to say
It says, when refrigerant flows only through the first heat-exchanger rig 23, the heat of refrigerant condensation release is only stored by the first heat-exchanger rig 23
Get up and is served only for heating the air being discharged out of cavity 11 in the drying process.
When refrigerant flows only through the second heat-exchanger rig 24, refrigerant is only condensed in the second heat-exchanger rig 24, the second heat exchange dress
Heat transfer that 24 release when condensing refrigerant is set to regenerative structure 30 to be used to heat the cleaning solution for being used for washing system 11.This
When, the first heat-exchanger rig 23 is not at accumulation of heat operating condition.In other words, when refrigerant flows only through the second heat-exchanger rig 24, refrigerant is cold
Solidifying is that the heat released only is stored by regenerative structure 30 and is served only for heated scrub.
In conclusion being connected in parallel on compressor 22 and throttling set 25 in the first heat-exchanger rig 23 and the second heat-exchanger rig 24
Between when, washing electric appliance 100 can be selected for user there are many operating condition, enriched the usage scenario of washing electric appliance 100, mentioned
The high usage experience of user.Meanwhile even if some in the first heat-exchanger rig 23 and the second regenerative structure 30 is damaged,
The function among air that washing electric appliance 100 also can only lose heated scrub or heating is discharged out of cavity 11.
It should be noted that in the example of fig. 1 and 2, the arrow on coolant loop indicates refrigerant in coolant loop
The direction of flowing.
Incorporated by reference to Fig. 3, in some embodiments, the first heat-exchanger rig 23 include cabinet 231, refrigerant flow pipe 232,
Air heat-exchange runner 233 and phase change heat storage material 234, refrigerant flow pipe 232 wear cabinet 231, air heat-exchange runner 233
Wear cabinet 231 and with refrigerant flow pipe 232 mutually completely cut off, phase change heat storage material 234 be arranged in cabinet 231 and with it is cold
Matchmaker's flow pipe 232 and air heat-exchange runner 233 contact, and air heat-exchange runner 233 is connected to dry air duct 27, dry air duct 27
In air can flow through air heat-exchange runner 233 to be heated by the first heat-exchanger rig 23.
Specifically, refrigerant flow pipe 232 is a part of coolant loop, for conveying refrigerant.Utilizing air-conditioning system
When 20 refrigeration, refrigerant condenses heat release when flowing through refrigerant flow pipe 232, and the phase change heat storage material 234 in cabinet 231 can incite somebody to action
The heat of releasing stores.In the drying process, the air in cavity 11 flows through air heat-exchange stream after entering dry air duct 27
Road 233, the heat that phase change heat storage material 234 stores can directly heat the air for flowing through air heat-exchange runner 233.
In present embodiment, phase change heat storage material 234 and refrigerant flow pipe 232 and air heat-exchange runner 233 are directly
Heat exchange is realized in contact.It is appreciated that in other embodiments, phase change heat storage material 234 can be with refrigerant flow pipe 232
And air heat-exchange runner 233, by other heat transfer medium mediate contacts, other media are the preferable media of heat-transfer effect, such as
The media such as heat conductive silica gel, metal.
It is understood that in the present embodiment, phase change heat storage material 234 can for solid-liquid phase change heat-storing material or
Solid-solid phase change heat-storing material, phase transition temperature are usually set to 40~55 degree, and specific material and phase transformation phase transition temperature can be with
It is selected according to specific actual conditions.
Further referring to Fig. 1 and Fig. 2, in some embodiments, it further includes the first blower that air conditioner type, which washs electric appliance 100,
28 and switching device (not shown go out), the first blower 28 and switching device are arranged in dry air duct 27, and the first blower 28 is used
In accelerating the air velocity in dry air duct 27, switching device is for being turned on and off dry air duct 27.
Specifically, in air conditioner type washing electric appliance 100 during being washed, the heat in cavity 11 dissipates in order to prevent
It losing excessive and reduces washing effect, the first blower 28 is in close state, meanwhile, switching device is also switched off dry air duct 27.?
When entering drying process after washing, dry air duct 27 is connected in switching device, and the air in cavity 11 enters dry air duct 27,
It is heated, is then come back in cavity 11 to improve drying effect when flowing through the first heat-exchanger rig 23.In the process,
One blower 28 can be opened, and accelerate the air velocity in dry air duct 27, shorten drying time, improve drying efficiency.
It should be noted that being blower described in the claims representated by above-mentioned first blower 28.First blower
28 can be using air supply devices such as cross flow fan or axial flow blowers, specifically with no restrictions.Switching device can use air-valve, grid
Lattice and shutter etc. specifically with no restriction need to only can be realized the function of being turned on and off dry air duct.In addition, above-mentioned
" the first blower 28 and switching device are arranged in dry air duct 27 " refers to that the first blower 28 and switching device can be set
Dry 27 inside of air duct is either arranged at air inlet 271 or the gas outlet 272 in dry air duct 27.
In some embodiments, regenerative structure 30 includes shell and heat storage unit (not shown go out), and heat storage unit is located at shell
Interior, the second heat-exchanger rig 24 is set in shell and contacts with heat conduction with heat storage unit, air conditioner type wash electric appliance 100 include first into
Liquid pipe (not shown go out), the first inlet tube wear shell and and accumulation of heat for connecting external water source and cavity 11, the first inlet tube
Portion contacts with heat conduction.
Specifically, heat storage unit can use condenser pipe, the second heat-exchanger rig for storing heat, the second heat-exchanger rig 24
24 contact with heat conduction with heat storage unit and refer to that the second heat-exchanger rig 24 can carry out in the desired manner heat transfer with heat storage unit, and
One inlet tube contacted with heat conduction with heat storage unit refer to heat storage unit can with the cleaning solution in the first inlet tube in the desired manner into
Row heat transfer.
In addition, in the present embodiment, the heat storage medium of heat storage unit can be phase change heat storage material, such as solid-liquid phase change accumulation of heat
Material or solid-solid phase change heat-storing material.Phase change heat storage material is connect with heat conduction with the second heat-exchanger rig 24 and the first inlet tube,
Phase change heat storage material can store the heat released when refrigerant condenses in the second heat-exchanger rig 24, need to carry out in washing electric appliance
When hot water washs, phase change heat storage material can discharge heat to heat the cleaning solution in the first inlet tube.
It is appreciated that, as heat storage medium, such as using water as heat storage medium, this reality compared to using other heat-storing materials
It applies mode and enables to the size of regenerative structure 30 can be made smaller as heat storage medium using phase change heat storage material, so as to
Enough so that the volume of washing electric appliance 100 is smaller, structure is more compact.In addition, using phase change heat storage material as heat storage medium when,
The heat storage capacity of regenerative structure 30 is stronger.
Please continue to refer to Fig. 1 and Fig. 2, in some embodiments, regenerative structure 30 includes shell 31, is formed in shell 31
There are the thermal 32 for storing cleaning solution, the 11 piping connection thermal 32 of cavity of washing system 10, the second heat-exchanger rig 24
Piping connection thermal 32 is to constitute the circulation loop 33 of cleaning solution.
In this way, the cleaning solution after being heated in thermal 32 can lead to when washing system 10 needs to carry out hot water washing
It crosses pipeline to flow into cup 111, gushing arm component 13 is then delivered to by washing pump 12, the article being placed in cavity 11 is carried out
Hot water washing.
Specifically, in the present embodiment, the second heat-exchanger rig 24 can use tube-in-tube condenser, including heat exchanger tube
(not shown go out) and refrigerant delivery pipe (not shown go out), heat exchanger tube is used to convey cleaning solution, be formed in thermal 32 recycle into
Liquid mouth (not shown go out) and circulation liquid outlet (not shown go out), the heat exchanger tube piping connection circulation inlet of the second heat-exchanger rig 24
With circulation liquid outlet, the cleaning solution in thermal 32 can pass through the heat exchanger tube that circulation liquid outlet flows into the first heat-exchanger rig 23
It is interior, it is then heated in heat exchanger tube, the cleaning solution after being heated flows into thermal 32 through circulation inlet, in this way, being formed
The circulation loop 33 of cleaning solution.Refrigerant delivery pipe is for conveying refrigerant, and heat exchanger tube is arranged refrigerant delivery pipe, and heat exchanger tube is defeated with refrigerant
Pipe is sent to connect with heat conduction, refrigerant is condensation heat release flowing through refrigerant delivery pipe, and heat transfer is to heat exchanger tube to heat in heat exchanger tube
Cleaning solution, the cleaning solution being heated by circulation loop 33 flow into thermal 32.In addition, being formed with inlet in thermal 32
(not shown go out) and liquid outlet (not shown go out), inlet is used for as the supplement cleaning solution of thermal 32, liquid outlet piping connection chamber
Body 11, the water after being heated in thermal 32 can flow into cavity 11 by liquid outlet.It is appreciated that in other embodiments
In, the second heat-exchanger rig 24 can also be using heat exchangers such as plate-type condensers, specifically with no restriction.
In addition, in some embodiments, the second heat-exchanger rig 24 can also use phase-transition heat-storage structure, specifically, the
Two heat-exchanger rigs 24 may include phase change heat storage material, and refrigerant can flow through the second heat-exchanger rig 24, the cleaning solution in thermal 32
The second heat-exchanger rig 24 can be flowed through, phase change heat storage material can carry out heat exchange with condensation and cleaning solution.In refrigerant condensation,
The heat of releasing is absorbed by phase change heat storage material, and when cleaning solution flows through the second heat-exchanger rig 24, phase change heat storage material releases heat
Amount, heating flow through the cleaning solution of the second heat-exchanger rig 24.
In the present embodiment, the shell 31 of regenerative structure 30 can be made of thermal insulation material, or in 31 appearance of shell
Bread covers thermal insulation material.In this way, the heat loss in thermal 32 can be prevented excessive.
Referring to Fig. 1 and Fig. 2, in some embodiments, above-mentioned air conditioner type washing electric appliance 100 further include second into
Liquid pipe 37, the second inlet tube 37 connect shell 31, and the second inlet tube 37 is connected to thermal 32.
Specifically, the inlet in the second inlet tube 37 connection thermal 32, the second inlet tube 37 are to store by inlet
Hot chamber 32 supplements cleaning solution.In addition, feed liquor switch 40 is installed on the second inlet tube 37, and when air-conditioning system 20 is run, feed liquor
Switch 40 is opened, and cleaning solution enters thermal 32 by the second inlet tube 37, in water inlet a period of time either in thermal 32
Liquid level when reaching a certain height, feed liquor switch 40 is closed, and feed liquor is stopped.It is appreciated that if running preceding inspection in air-conditioning system 20
Measure that the cleaning solution in thermal 32 is insufficient for recycling in circulation loop 33 when needing, need advanced a certain amount of wash
Air-conditioning system 20 is then turned on after washing liquid.
Referring to Fig. 4, in some embodiments, the pipeline between the second heat-exchanger rig 24 and thermal 32 is provided with
First shut-off valve 26, the first shut-off valve 26 are used to that circulation loop 33 to be connected when air-conditioning system 20 is run, and in air-conditioning system 20
When closing, circulation loop 33 is truncated.
In this way, refrigerant stops flowing when air-conditioning system 20 is closed, the heat transfer process of refrigerant also stops, the first shut-off valve
26 step cycle circuits 33 can circulate in circulation loop 33 to avoid the cleaning solution being heated in thermal 32 and be caused
Heat losses.
Referring to Fig. 5, in some embodiments, in some embodiments, above-mentioned air conditioner type washing electric appliance 100 also wraps
Circulating pump 35 is included, the pipeline between heat exchanger tube and thermal 32 is arranged in circulating pump 35, when air-conditioning system 20 is run, circulating pump
35 open, and when air-conditioning system 20 is closed, circulating pump 35 is closed.
In this way, circulating pump 35 is opened when air-conditioning system 20 is run, the cleaning solution that can accelerate in thermal 32 is being recycled
Circulation rate in circuit 33, so that the cleaning solution in thermal 32 can absorb the heat released when refrigerant condensation faster,
Guarantee the performance of air-conditioning system 20.When air-conditioning system 20 is closed, the second heat-exchanger rig 24 stops exchanging heat with regenerative structure 30, follows
Ring pump 35 is closed.
It should be noted that arrow on circulation loop 33 indicates circulation loop 33 in Fig. 4 and example shown in fig. 5
Middle cleaning solution circulates direction.It is understood that its flow direction is exemplary only, washing in circulation loop 33
The flow direction for washing liquid can also be contrary with diagram.
Please Fig. 4 and Fig. 5 again, in some embodiments, the pipeline between cavity 11 and thermal 32 be provided with into
Cleaning solution in thermal 32 can be delivered to cavity 11 by liquid pump 36, liquid feeding pump 36.
In this way, the feed speed from the feed liquor in the cavity 11 of washing system 10 of thermal 32 can be accelerated.
It is understood that above-mentioned air conditioner type washing electric appliance 100 can also be not provided with liquid feeding pump 36, directly rely on second into
Liquid pipe 37 carries out fluid infusion to thermal 32 so that the cleaning solution in thermal 32 flows into the cavity 11 of washing system 10.
Moreover, it is to be understood that in some embodiments, liquid feeding pump 36 also can be by the cleaning solution in cavity 11
It is delivered in thermal 32 and is stored.
Specifically, in when drain of electric appliance 100 of washing, for example, washing timing in washing electric appliance 100 terminates,
Cleaning solution in thermal 32 is consumed substantially when finishing, and liquid feeding pump 36 can be by the cleaning solution in cavity 11 by filtering again
It is pumped in thermal 32 and is stored, recycled.In this way, thermal 32 both can provide heat for washing electric appliance 100
Water can recycle again and store the water of discharge, and other water storage device need not be arranged to recycle and store discharge in washing electric appliance 100
Water, the manufacturing cost that also reduces while reducing the volume of washing electric appliance 100.
Please continue to refer to Fig. 4 and Fig. 5, in some embodiments, above-mentioned air conditioner type washing electric appliance 100 further includes second section
The pipeline between cavity 11 and thermal 32 is arranged in only valve 34, the second shut-off valve 34, and the second shut-off valve 34 is used in washing system
When 10 operation of system, the pipeline between cavity 11 and thermal 32 is connected, and when washing system 10 is closed, cavity 11 is truncated and stores
Pipeline between hot chamber 32.
In this way, not needing to wash into water, cavity 11 and thermal is truncated in the second shut-off valve 34 when washing system 10 is closed
Pipeline between 32 can prevent the cleaning solution in thermal 32 from entering in cavity 11.
It should be noted that the second above-mentioned shut-off valve 34 represents shut-off valve described in the claims.
In some embodiments, above-mentioned air conditioner type washing electric appliance 100 is formed with temperature detection mouth (not shown go out), temperature
Detection mouth is arranged in the thermal 32 of regenerative structure 30, and temperature detection mouth is for installing temperature-detecting device to detect cleaning solution
Temperature.
In this way, temperature-detecting device can monitor cleaning solution in real time when by thermal 32 to 10 feed liquor of washing system
Temperature.When cleaning solution temperature is lower, can be truncated between cavity 11 and thermal 32 by closing the second shut-off valve 34
Pipeline, prevent the cleaning solution temperature entered in cavity 11 too low and influence washing effect.
It is understood that in other embodiments, temperature detection mouth also can be set in heat exchanger tube and thermal 32
Between pipeline on, that is, be arranged on circulation loop 33.
It should be noted that air-conditioning system 20 and washing system 10 can be simultaneously in the embodiments of the present invention
Operation can also only operation air-conditioning system 20 or only operation washing system 10.It is understood that running air-conditioning system at the same time
System 20 and washing system 10 and when needing to carry out hot water washing, the heat storage that the first heat-exchanger rig 23 is released when condensing refrigerant
Get up, regenerative structure 30 is also directly washing system while using the heat washing water of the second heat-exchanger rig 24 transmitting
10 provide the washing water after heating.
In 20 isolated operation of air-conditioning system, the heat that the first heat-exchanger rig 23 is released when condensing refrigerant is stored,
Regenerative structure 30 utilizes the cleaning solution in the heat thermal 32 of the second heat-exchanger rig 24 transmitting.In washing system 10
When isolated operation, regenerative structure 30 directly can provide heated cleaning solution for washing system 10.
In some instances, air conditioner type washing electric appliance 100 is also provided with electric heating tube, and electric heating tube, which can integrate, to be washed
It washs in pump 12, the shortage of heat in the first heat-exchanger rig 23 is to be heated to required temperature or accumulation of heat for the first cleaning solution
When temperature required for the temperature of the cleaning solution in structure 30 does not reach, electric heating tube can be opened to entrance washing system 10
Cleaning solution carry out auxiliary heating.
In addition, referring to Fig. 6, in some embodiments, electric heater unit 70 is provided in dry air duct 27, electricity adds
Thermal 70 is positioned close to the position of air inlet 271, and electric heater unit 70 can be filled in dry air duct 27 by the first heat exchange
It sets 23 heated air further to heat, to further increase drying effect.
Fig. 1 to Fig. 6 is please referred to, in some embodiments, above-mentioned air conditioner type washing electric appliance 100 further includes ducting system
60, evaporator 21 be arranged in ducting system 60, ducting system 60 for import outside air at evaporator 21 and refrigerant into
The cold air formed after heat exchange is simultaneously imported external environment to reach refrigeration effect by row heat exchange.In the example shown in the series of figures, wind
Dotted arrow in road system 60 indicates air-flow direction.
Fig. 1 to Fig. 6 is please referred to, the air conditioner type washing electric appliance 100 of above embodiment further includes the second blower 61, the second wind
Machine 61 is arranged in ducting system 60, and the second blower 61 is used to accelerate the air velocity in ducting system 60.
Specifically, outside air can quickly be imported ducting system 60 by blower 60, and after can accelerating heat exchange
Cold air air velocity, improve the refrigerating efficiency of air-conditioning system 20.The type of second blower 61 can be with the first blower
28 type can be unanimously or inconsistent.
It is understood that in the above-described embodiment, it, can be direct in the season that air-conditioning system 20 is not run for a long time
Electric heater for heating can be passed through when needing hot water to wash by external 50 feed liquor of inlet pipe.It is set in external inlet pipe
It is equipped with valve 51, when needing using external 50 feed liquor of inlet pipe, external inlet pipe 50 is connected in valve 51, is not needing
When needing using external 50 feed liquor of inlet pipe, valve 51 closes external inlet pipe.
It further include draining pump (not shown go out), draining pump connecting cavity in the air conditioner type washing electric appliance 100 of above embodiment
Body 11, after washing timing, draining pump is opened, by washing residual water discharge.
The washing system 10 of the air conditioner type washing electric appliance 100 of the utility model embodiment mainly includes prewashing at work
Stage, master wash stage, rinse stage and drying stage.Below using the heat storage medium of regenerative structure 30 as water (i.e. regenerative structure 30
Thermal 32 for storing cleaning solution) for, each stage is briefly described and is introduced.
The prewashing stage includes draining, water inlet and circulation water spray, and the residual of last time washing first mainly is discharged by draining pump drainage
Yu Shui, then the feed liquor switch 40 on the second inlet tube 37 and the second shut-off valve 34 are opened, and the hot water in thermal 32 flows into chamber
Body 11, inflow can be detected by flow detector, stop water inlet when inflow is enough, washing pump 12 opens later
Dynamic, by delivery to gushing arm component 13, the outside shower water of gushing arm component 13, the article in circulation flushing cavity 11 is to reach
Prewashed purpose.
It is main to wash the stage including draining, intaking, recycle water spray, heated scrub and draining, it drains, intake, recycling and spray water
It is similar with the prewashing stage, after circulation sprays water a period of time, need to heat cleaning solution, this process, which can be, first to be exhausted
Then a part of water is also possible to directly pass through electric heating tube from the thermal 32 of regenerative structure 30 again into a part of hot water
Water is heated, specifically can according to the actual situation depending on.In addition, detergent can be added by washing the specific time in stage in master, with
Just article washing is clean.
Rinse stage is substantially similar with the stage of washing is led, and detergent can also be added in rinse stage or bright dish agent (is directed to
Tableware).Enter drying stage after the completion of rinse stage, in drying stage, switching device opens dry air duct 27, and chamber is intracorporal
Air in dry air duct 27 by the first heat-exchanger rig after return to cavity, so recycle, it is dry to achieve the purpose that.Drying is certain
After time, washing timing terminates, and air conditioner type washs electric appliance 100 and closes, and the hot water in thermal 32 is washed the fortune of system 10 substantially
It is consumed when row, what is finally stored is conventional cold water.It is understood that after wash cycle, washing in washing system
Washing liquid can not be discharged outside to, and can be directly pumped in thermal 32 and be stored by liquid feeding pump 36, to carry out to it
It recycles, for example, the prewashing stage that can be used for washing next time.
Further, it is to be appreciated that the air conditioner type washing electric appliance 100 in the embodiments of the present invention is mountable to kitchen
Room, especially suitable for the occasion to install air conditioner used in kitchen or kitchen without refrigerating plant but summer sweltering heat and needs freeze.
In the present invention unless specifically defined or limited otherwise, fisrt feature the "upper" of second feature or it
"lower" may include that the first and second features directly contact, and also may include that the first and second features are not direct contacts but lead to
Cross the other characterisation contact between them.Moreover, fisrt feature includes above the second feature " above ", " above " and " above "
One feature is right above second feature and oblique upper, or is merely representative of first feature horizontal height higher than second feature.First is special
Sign is directly below and diagonally below the second feature including fisrt feature under the second feature " below ", " below " and " below ", or only
Indicate that first feature horizontal height is less than second feature.
Disclosure herein provides many different embodiments or example is used to realize the different structure of the utility model.
In order to simplify the disclosure of the utility model, the component of specific examples and setting are described herein.Certainly, they are only
Example, and purpose does not lie in limitation the utility model.In addition, the utility model can in different examples repeat reference numerals
And/or reference letter, this repetition are for purposes of simplicity and clarity, itself not indicate discussed various embodiments
And/or the relationship between setting.In addition, the example of various specific techniques and material that the utility model provides, but this
Field those of ordinary skill can be appreciated that the application of other techniques and/or the use of other materials.
In the description of this specification, reference term " embodiment ", " some embodiments ", " schematically implementation
The description of mode ", " example ", " specific example " or " some examples " etc. means embodiment or example is combined to describe specific
Feature, structure, material or feature are contained at least one embodiment or example of the utility model.In this specification
In, schematic expression of the above terms are not necessarily referring to identical embodiment or example.Moreover, the specific spy of description
Sign, structure, material or feature can be combined in any suitable manner in any one or more embodiments or example.
While there has been shown and described that the embodiments of the present invention, those skilled in the art can manage
Solution: a variety of to the progress of these embodiments can change in the case where not departing from the principles of the present invention and objective, modify,
Replacement and variant, the scope of the utility model are defined by the claims and their equivalents.
Claims (13)
1. a kind of air conditioner type washs electric appliance characterized by comprising
Washing system, the washing system include cavity and washing pump, cavity described in the washing pump piping connection;
Air-conditioning system, the air-conditioning system include connecting to form the evaporator of closed coolant loop, compressor, the first heat exchange dress
It sets, the second heat-exchanger rig and throttling set, the evaporator are configured to carry out heat exchange so that described by refrigerant and air
Air forms cold air, and first heat-exchanger rig is configured to store described in the heat released when refrigerant condensation and utilization
The air that heat is discharged from the cavity, the air being discharged out of described cavity return after first heat-exchanger rig heating
Return the cavity;With
Regenerative structure, the regenerative structure can carry out heat exchange, the second heat-exchanger rig quilt with second heat-exchanger rig
It is configured to carry out heat exchange with refrigerant and transfers heat to the regenerative structure, the regenerative structure is configured to store from institute
The cleaning solution stated the heat of the second heat-exchanger rig exchange and utilize the heat for the washing system.
2. air conditioner type as described in claim 1 washs electric appliance, which is characterized in that first heat-exchanger rig includes cabinet, cold
Matchmaker's flow pipe and the phase change heat storage material for being arranged in the cabinet and being contacted with the refrigerant flow pipe, the refrigerant stream
Siphunculus road wears the cabinet.
3. air conditioner type as described in claim 1 washs electric appliance, which is characterized in that the air conditioner type washing electric appliance includes dry wind
Road, first heat-exchanger rig are arranged in the dry air duct, and the dry air duct is connected to the cavity, the dry air duct
Air inlet and air outlet are formed in the different location of the cavity, the intracorporal air of chamber is through described in the entrance of the gas outlet
The cavity is entered by the air inlet after the heating of the first heat-exchanger rig in dry air duct and in the dry air duct.
4. air conditioner type as claimed in claim 3 washs electric appliance, which is characterized in that first heat-exchanger rig includes air heat-exchange
Runner, the air heat-exchange runner are connected to the dry air duct, and the air in the dry air duct can flow through the air heat-exchange
Runner by first heat-exchanger rig to be heated.
5. air conditioner type as claimed in claim 3 washs electric appliance, which is characterized in that the air conditioner type washs electric appliance and includes:
The blower in the dry air duct is set, and the blower is used to accelerate the gas flow rate in the dry air duct;And/or
Switching device, the switching device are arranged in the dry air duct, and the switching device is described for being turned on and off
Dry air duct.
6. air conditioner type as described in claim 1 washs electric appliance, which is characterized in that the regenerative structure includes shell and accumulation of heat
Portion, the heat storage unit are located in the shell, and second heat-exchanger rig is set in the shell and leads with the heat storage unit
It thermally contacts, the air conditioner type washing electric appliance includes inlet tube, and the inlet tube connects the cavity, and the inlet tube wears institute
It states shell and is contacted with heat conduction with the heat storage unit.
7. air conditioner type as claimed in claim 6 washs electric appliance, which is characterized in that the heat storage unit includes phase change heat storage material,
The phase change heat storage material is connect with heat conduction with second heat-exchanger rig and the inlet tube.
8. air conditioner type as described in claim 1 washs electric appliance, which is characterized in that the regenerative structure includes shell, the shell
It is formed with the thermal for storing the cleaning solution, thermal described in the cavity piping connection, second heat exchange in vivo
Thermal described in device piping connection is to constitute the circulation loop of the cleaning solution.
9. air conditioner type as claimed in claim 8 washs electric appliance, which is characterized in that between the cavity and the thermal
Pipeline is equipped with liquid feeding pump, and the cleaning solution in the thermal can be delivered to the cavity by the liquid feeding pump, it is described into
The intracorporal cleaning solution of the chamber can also be delivered to the thermal by liquid pump.
10. air conditioner type as described in any one of claims 1-9 washs electric appliance, which is characterized in that first heat-exchanger rig
And second heat-exchanger rig is connected between the compressor and the throttling set.
11. air conditioner type as claimed in claim 10 washs electric appliance, which is characterized in that the refrigerant first flows through first heat exchange
Pass through second heat-exchanger rig after device or the refrigerant first flow through second heat-exchanger rig after pass through described first
Heat-exchanger rig.
12. air conditioner type as described in any one of claims 1-9 washs electric appliance, which is characterized in that first heat-exchanger rig
And second heat-exchanger rig is connected in parallel between the compressor and the throttling set.
13. air conditioner type as claimed in claim 12 washs electric appliance, which is characterized in that the refrigerant flows only through first heat exchange
Device perhaps the refrigerant flow only through second heat-exchanger rig or the refrigerant flow through first heat-exchanger rig and
Second heat-exchanger rig.
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CN201821512877.9U CN208920434U (en) | 2018-09-14 | 2018-09-14 | Air conditioner type washs electric appliance |
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CN201821512877.9U CN208920434U (en) | 2018-09-14 | 2018-09-14 | Air conditioner type washs electric appliance |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110906476A (en) * | 2018-09-14 | 2020-03-24 | 佛山市顺德区美的洗涤电器制造有限公司 | Air-conditioning type washing electric appliance |
CN112628988A (en) * | 2020-12-22 | 2021-04-09 | 青岛海尔空调器有限总公司 | Intelligent air conditioner and control system and control method for preventing stain residues |
-
2018
- 2018-09-14 CN CN201821512877.9U patent/CN208920434U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110906476A (en) * | 2018-09-14 | 2020-03-24 | 佛山市顺德区美的洗涤电器制造有限公司 | Air-conditioning type washing electric appliance |
CN112628988A (en) * | 2020-12-22 | 2021-04-09 | 青岛海尔空调器有限总公司 | Intelligent air conditioner and control system and control method for preventing stain residues |
CN112628988B (en) * | 2020-12-22 | 2022-04-15 | 青岛海尔空调器有限总公司 | Intelligent air conditioner and control system and control method for preventing stain residues |
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Effective date of registration: 20220801 Address after: 241000 west side of 3 / F, No.5 office building, new energy and new materials gathering area, Fuzhou Road, Jiangbei District, Wuhu City, Anhui Province Patentee after: Wuhu Midea intelligent kitchen electricity Manufacturing Co.,Ltd. Address before: 528311 20 Beijiao Road, Beijiao Town, Shunde District, Foshan, Guangdong Patentee before: FOSHAN SHUNDE MIDEA WASHING APPLIANCES MANUFACTURING Co.,Ltd. Patentee before: MIDEA GROUP Co.,Ltd. |