CN106196827A - Ice making refrigerator - Google Patents

Abstract

The invention discloses a kind of ice making refrigerator, ice making refrigerator includes ice machine, casing and refrigeration system, box house is provided with one or more refrigeration compartment, being provided with ice machine inside at least one refrigeration compartment, refrigeration system only has double round robin cooling system or includes separate single circulation refrigeration system and double round robin cooling system；Double round robin cooling system is to being provided with the refrigeration compartment cooling of ice machine to realize cold preservation or frozen mode, and wherein a circularly cooling subsystem in double round robin cooling system is to ice machine cooling, and a cycle refrigeration system is to the refrigeration compartment cooling being provided with ice machine；Single circulation refrigeration system is to not installing the refrigeration compartment cooling of ice machine to realize cold preservation or frozen mode.Present invention successfully solves ice making refrigerator cold-storage freezing switch mode and ice-make mode cannot the compatible technical problem used, it is simple to user uses the cold storage function of refrigerator, freezing function and ice making function.

Description

Ice making refrigerator

Technical field

The present invention relates to refrigerator art, particularly relate to a kind of ice making refrigerator.

Background technology

Along with the raising of people's living standard, daily life need the situation using ice cube also strengthen, such as at red wine In on the rocks on the rocks, beverage, preserve seafood etc. with ice.Ice making method general in daily life uses with ice machine Refrigerator (i.e. ice making refrigerator) ice making.Ice machine is generally located in the refrigerating chamber of refrigerator, and ice machine and refrigerating chamber share a system Cooling system.

But, when refrigerator has freezing and refrigeration switch mode, when the refrigerating chamber of refrigerator is converted to cold room use, original Ice machine within refrigerating chamber will be under refrigerated storage temperature (such as 2 to 4 degrees Celsius), and ice machine will be unable to ice making, thus causes Ice making refrigerator cold-storage freezing switch mode and ice-make mode cannot the compatible technical problems used.

Summary of the invention

Present invention is primarily targeted at a kind of ice making refrigerator of offer, it is intended to solve ice making refrigerator cold-storage freezing switch mode Cannot the compatible technical problem used with ice-make mode.

For achieving the above object, the embodiment of the present invention provides a kind of ice making refrigerator, and described ice making refrigerator includes ice machine, case Body and refrigeration system, described box house is provided with one or more refrigeration compartment, is provided with inside at least one described refrigeration compartment Ice machine, described refrigeration system only has double round robin cooling system or includes that separate single circulation refrigeration system is followed with double Ring refrigeration system；

Described double round robin cooling system is to being provided with the refrigeration compartment cooling of ice machine to realize cold preservation or frozen mode, wherein A circularly cooling subsystem in double round robin cooling system is to ice machine cooling, and a cycle refrigeration system is to being provided with ice machine Refrigeration compartment cooling；Described single circulation refrigeration system is to not installing the refrigeration compartment cooling of ice machine to realize cold preservation or freezing Pattern.

Preferably, described double round robin cooling system include the first compressor of pipeline serial communication successively, the first condenser, Three-way magnetic valve, evaporator assemblies and the first reservoir, described evaporator assemblies includes the first vaporizer and being connected in parallel Two vaporizers, described first vaporizer to being provided with the refrigeration compartment cooling of ice machine, described second vaporizer to ice machine cooling, Described three-way magnetic valve controls the first parallel branch and second parallel branch at the second vaporizer place at the first vaporizer place Simultaneously turn on or any one parallel branch conducting.

Preferably, described first parallel branch is additionally provided with the first capillary tube with the first evaporator series.

Preferably, described second parallel branch is additionally provided with the return-air heat exchanger with the second evaporator series.

Preferably, between described three-way magnetic valve and the first condenser, also series connection is provided with the first device for drying and filtering.

Preferably, described single circulation refrigeration system include the second compressor of pipeline serial communication successively, the second condenser, Second capillary tube, the 3rd vaporizer and the second reservoir, described 3rd vaporizer is to the refrigeration compartment cooling not installing ice machine.

Preferably, between described second condenser and the second capillary tube, also series connection is provided with the second device for drying and filtering.

Preferably, it is provided with anti-condensation pipe inside described first condenser and/or the second condenser.

Preferably, the refrigeration compartment of described ice making refrigerator includes that inside is provided with first room of ice machine and inside is not provided with The second compartment of ice machine, described ice making refrigerator also includes master control borad and the first temperature sensing all electrically connected with master control borad Device and the second temperature sensor, described first temperature sensor is located between first indoor, and described second temperature sensor is located at Indoor between two；

Master control borad controls described double round robin cooling system to first based on the first temperature value that the first temperature sensor gathers Between room cooling, switch between cold preservation pattern and frozen mode realizing first room；

Master control borad controls described single circulation refrigeration system to second based on the second temperature value that the second temperature sensor gathers Between room cooling, switch between cold preservation pattern and frozen mode realizing second compartment.

Preferably, described ice making refrigerator also includes being located between first the primary heater of indoor and being located in second compartment Secondary heater, described primary heater and secondary heater all electrically connect with master control borad；

During first room by frozen mode switching cold preservation pattern, master control borad controls primary heater auxiliary heating；? When two rooms are by frozen mode switching cold preservation pattern, master control borad controls secondary heater auxiliary heating.

The present invention is by independent of the system to being arranged in ice making refrigerator of the refrigeration system outside refrigeration compartment refrigeration system Ice maker carries out ice making, and double round robin cooling system respectively and independently supplies to the ice machine of refrigeration compartment He this refrigeration chamber respectively Cold, no matter the refrigeration compartment at ice machine place is in cold preservation pattern or frozen mode, and ice machine all can utilize self special system Cooling system cooling ice making, successfully solves ice making refrigerator cold-storage freezing switch mode and ice-make mode cannot the compatible skill used Art problem, it is simple to user uses the cold storage function of refrigerator, freezing function and ice making function.

Accompanying drawing explanation

Fig. 1 is the body structure schematic diagram of ice making refrigerator one embodiment of the present invention；

Fig. 2 is the refrigerating system figure of an embodiment of first room of ice making refrigerator in Fig. 1；

Fig. 3 is the refrigerating system figure of an embodiment of ice making refrigerator second compartment in Fig. 1.

The realization of the object of the invention, functional characteristics and advantage will in conjunction with the embodiments, are described further referring to the drawings.

Detailed description of the invention

Should be appreciated that specific embodiment described herein, only in order to explain the present invention, is not intended to limit the present invention.

The present invention provides a kind of ice making refrigerator, and ice making refrigerator includes ice machine, casing and refrigeration system, and box house is provided with One or more refrigeration compartment, are provided with ice machine inside at least one refrigeration compartment, refrigeration system only has Two-way Cycle refrigeration and is Unite or include separate single circulation refrigeration system and double round robin cooling system；Double round robin cooling system is to being provided with ice machine Refrigeration compartment cooling to realize cold preservation or frozen mode, wherein a circularly cooling subsystem in double round robin cooling system to Ice machine cooling, a cycle refrigeration system is to the refrigeration compartment cooling being provided with ice machine；Single circulation refrigeration system is to not installing The refrigeration compartment cooling of ice machine is to realize cold preservation or frozen mode.

When ice making refrigerator only one of which refrigeration compartment, ice machine is arranged in this refrigeration compartment, and ice making refrigerator only has One double round robin cooling system, in this double round robin cooling system, a circularly cooling subsystem A is individually to ice machine cooling, with reality Time ice machine normal ice making；Another circularly cooling subsystem B individually room cooling between the separate refrigeration of ice making refrigerator, such as when When refrigeration compartment is set to cold preservation pattern, the temperature of refrigeration compartment is controlled at preset refrigerating temperature (such as 0 by circularly cooling subsystem ～10 DEG C), when refrigeration compartment is set to frozen mode

With reference to Fig. 1, when ice making refrigerator has two refrigeration compartment, ice machine is typically provided only in a refrigeration compartment (according to actual needs ice machine can certainly be all set two refrigeration compartment, utilize two set double round robin cooling systems respectively Room between two is carried out cooling), i.e. the refrigeration compartment of ice making refrigerator includes that inside is provided with first room 100 He of ice machine 300 Inside is not provided with the second compartment 200 of ice machine 300, and a double round robin cooling system supplies to first room 100 and ice machine 300 Cold, a single circulation refrigeration system is to second compartment 200 cooling, by regulation double round robin cooling system and single circulation refrigeration system Refrigeration work consumption, it is achieved first room 100 and second compartment 200 switch between frozen mode and cold preservation pattern；When ice making ice When case has two or more refrigeration compartment, the number of ice machine can be according to ice amount requirements set, between refrigeration principle and two refrigeration The ice making refrigerator of room is essentially identical, does not make tired stating at this.

In the present embodiment, the ice machine being arranged in ice making refrigerator be utilize independent of refrigeration compartment refrigeration system outside Refrigeration system carry out ice making, double round robin cooling system is respectively to the ice machine of refrigeration compartment and this refrigeration chamber respectively and solely Vertical cooling, no matter the refrigeration compartment at ice machine place is in cold preservation pattern or frozen mode, and ice machine all can utilize self special Refrigeration system cooling ice making, successfully solving ice making refrigerator cold-storage freezing switch mode and ice-make mode cannot compatible use Technical problem, it is simple to user uses the cold storage function of refrigerator, freezing function and ice making function.

Further, with reference to Fig. 1, the refrigeration compartment of ice making refrigerator includes that inside is provided with first room 100 of ice machine 300 With the second compartment 200 that inside is not provided with ice machine 300, ice making refrigerator also include master control borad (not shown) and all with First temperature sensor (not shown) of master control borad electrical connection and the second temperature sensor (not shown), the first temperature Sensor is located in first room 100, and the second temperature sensor is located in second compartment 200；Master control borad passes based on the first temperature The first temperature value control double round robin cooling system that sensor gathers is to first room 100 cooling, to realize first room 100 cold Switch between Tibetan pattern and frozen mode；The second temperature value that master control borad gathers based on the second temperature sensor controls single round-robin system Cooling system to second compartment 200 cooling, switches realizing second compartment 200 between cold preservation pattern and frozen mode.

In the preferred embodiment of ice making refrigerator, the inside of ice making refrigerator has two refrigeration compartment, is provided with system respectively First room 100 of ice maker 300 and the second compartment 200 without ice machine 300, first room 100 and the indoor of second compartment 200 Space size, such as first room 100 interior space is relatively big, and second compartment 200 interior space is less, user to cold preservation When the space size demand in space is more than reefer space, first room 100 is adjusted to cold preservation pattern, second compartment 200 is adjusted Whole for frozen mode.Ice making refrigerator also includes the first temperature sensor for first room 100 real time temperature of detection, for examining Survey second compartment 200 real time temperature the second temperature sensor and with the first temperature sensor, the second temperature sensor, system The master control borad of cooling system electrical connection.Be provided with on ice making refrigerator body or on remote controller corresponding to ice making refrigerator freezing turn cold preservation by Key and cold preservation turn freezing button, when user operation freezing turns cold preservation button, control first room 100 or second compartment 200 by Frozen mode transfers cold preservation pattern to, when user operation cold preservation turns freezing button, controls first room 100 or second compartment 200 Frozen mode is transferred to by cold preservation pattern.

Master control borad receives the corresponding freezing in first room 100 and turns the freezing that cold preservation button triggers when turning cold preservation instruction, obtains First temperature sensor gathers the real-time temperature values of first room 100, and controls double round robin cooling system and supply to first room 100 Cold, when real-time temperature values is higher than preset refrigerating temperature, unlatching double round robin cooling system is to first room 100 cooling, when in real time When temperature value is less than preset refrigerating temperature, adjusts double round robin cooling system state and stop to first room 100 cooling；Master control borad connects Receive the corresponding cold preservation of second compartment 200 and turn the cold preservation that freezing button triggers when turning freezing instruction, obtain the second temperature sensor and adopt The real-time temperature values of collection second compartment 200, and control single circulation refrigeration system to second compartment 200 cooling, work as real-time temperature values Higher than when presetting cryogenic temperature, unlatching single circulation refrigeration system is to second compartment 200 cooling, when real-time temperature values is cold less than presetting When freezing temperature, close single circulation refrigeration system state and stop to second compartment 200 cooling.In like manner understanding, master control borad is based on second Temperature value and cold preservation turn freezing instruction, it is achieved first room 100 or second compartment 200 transfer frozen mode to from cold preservation pattern.

In the present embodiment, ice making refrigerator by separate double round robin cooling system and single circulation refrigeration system to two Individual refrigeration compartment cooling, and master control borad accurately adjusts based on the first temperature value, preset refrigerating temperature and default cryogenic temperature One compartment temperature switches between cold preservation pattern and frozen mode with individually first room of control, and master control borad is based on the second temperature simultaneously Angle value, preset refrigerating temperature and default cryogenic temperature accurately adjust second compartment temperature individually to control second compartment at cold preservation mould Switch between formula and frozen mode, it is provided that the implementation of room translation function between a kind of new refrigerating.

Preferably, ice making refrigerator also includes the primary heater being located between first indoor and be located in second compartment second Heater, primary heater and secondary heater all electrically connect with master control borad；Cold preservation mould is switched by frozen mode first room During formula, master control borad controls primary heater auxiliary heating；When second compartment is by frozen mode switching cold preservation pattern, master control borad control Secondary heater processed auxiliary heating.

When between ice making refrigerator, room is switched to cold preservation pattern by frozen mode (compartment temperature is in-18 degrees centigrade) Time (compartment temperature is between 0-10 degree Celsius), owing to default cryogenic temperature is significantly smaller than preset refrigerating temperature, if only stopping To a room cooling, an indoor temperature rises to preset refrigerating temperature and needs the long period by presetting cryogenic temperature, causes ice making refrigerator Cold preservation pattern is converted to the most long by frozen mode.Include as a example by first room and second compartment by ice making refrigerator, first Between room primary heater is set, secondary heater is set in second compartment, is turned by frozen mode first room by master control borad When being changed to cold preservation pattern, control primary heater auxiliary heating, with fast lifting the first compartment temperature to preset refrigerating temperature；Main Control plate, when second compartment is converted to cold preservation pattern by frozen mode, controls secondary heater auxiliary heating, with fast lifting the Two compartment temperatures are to preset refrigerating temperature；Thus be greatly improved room between ice making refrigeration for refrigerator and be converted to cold preservation mould by frozen mode The efficiency of formula.

Further, seeing figures.1.and.2, double round robin cooling system includes the first compressor of pipeline serial communication successively 101, the first condenser 102, three-way magnetic valve 103, evaporator assemblies and the first reservoir 109, evaporator assemblies includes parallel connection The first vaporizer 107 and the second vaporizer 108 connected, the first vaporizer 107 is to the refrigeration compartment 100 being provided with ice machine 300 Cooling, the second vaporizer 108 is to ice machine 300 cooling, and three-way magnetic valve 104 controls the first of the first vaporizer 107 place also Second parallel branch at connection branch road and the second vaporizer 108 place simultaneously turns on or any one parallel branch conducting.

Coolant flows through first compressor the 101, first condenser 102, three-way magnetic valve 103, evaporator assemblies and successively One reservoir 109, coolant flows back to the first compressor 101, wherein, first compressor the 101, first condenser 102, threeway the most again Electromagnetic valve the 104, first vaporizer 107 and the first reservoir 108 collectively form double round robin cooling system one circularly cooling subsystem, First compressor the 101, first condenser 102, three-way magnetic valve the 104, second vaporizer 108 and the first common structure of reservoir 108 Become another circularly cooling subsystem of double round robin cooling system.Second vaporizer 108 is arranged near ice machine 300 thinks ice machine 300 coolings, ice machine 300 is detachable in refrigeration compartment 100.When three-way magnetic valve 104 only connects the first parallel branch, from The coolant that first compressor 101 flows out only passes through the first vaporizer 107 to realize the cooling to refrigeration compartment 100；When three energisings When magnet valve 104 only connects the second parallel branch, the coolant flowed out from the first compressor 101 only passes through the second vaporizer 108 with reality The now cooling to ice machine 300；When three-way magnetic valve 104 connects the first parallel branch and the second parallel branch simultaneously, from The coolant that one compressor 101 flows out simultaneously flows through the first vaporizer 107 and the second vaporizer 108, to realize refrigeration machine simultaneously 300 and the cooling of refrigeration compartment 100；Thus the present embodiment provides a kind of refrigeration compartment for ice making refrigerator and ice machine independently to supply The implementation of cold double round robin cooling system, it is to avoid influence each other between refrigeration compartment cooling and ice machine cooling.Additionally, the One condenser 102 includes spaced first left condenser 1022 and the first right condenser 1021, and the first left condenser 1022 and first can set up anti-condensation pipe 400 between right condenser 1021.

Alternatively, with reference to Fig. 2, the first parallel branch is additionally provided with the first capillary tube connected with the first vaporizer 107 105.First capillary tube 105 can be a thin and long copper tube, and internal diameter is generally 0.5～1mm, a length of 2～4m. The heat conductivility of copper pipe is good.The coolant (i.e. cold-producing medium) coolant after the first capillary tube 105 is intrinsic pressure at the first vaporizer 107 Power is relatively low, liquid be evaporated to gaseous state, absorbs heat, completes refrigeration.First capillary tube 105 also may be used by regulating cold medium flux processed To determine the evaporating temperature in the first vaporizer 107.

Alternatively, with reference to Fig. 2, the second parallel branch is additionally provided with the return-air heat exchanger connected with the second vaporizer 108 106.Return-air heat exchanger tube 106 is connected with second vaporizer 108 port of export, and sticks together with the first capillary tube 105, passes through return-air The cold of coolant is passed to the coolant in the first capillary tube 105 by heat exchanger 106, plays the effect improving refrigeration for refrigerator performance.

Alternatively, with reference to Fig. 2, between three-way magnetic valve 104 and the first condenser 102, also series connection is provided with the first dry filter Device 106.When coolant flows through the first device for drying and filtering 106, moisture contained in coolant is adsorbed by the first device for drying and filtering 106, Dirt also can be stopped by the drainage screen of the first device for drying and filtering 106, thus forms when avoiding the water vapour in coolant below 0 DEG C Ice pearl and block capillary tube (the i.e. first capillary tube 105), avoid the dirt in coolant or dust to enter capillary tube (i.e. first simultaneously Capillary tube 105) and result in blockage.

Further, with reference to Fig. 1 and Fig. 3, single circulation refrigeration system includes the second compressor of pipeline serial communication successively 201, the second condenser the 202, second capillary tube the 204, the 3rd vaporizer 205 and the second reservoir 206, the 3rd vaporizer 205 to Refrigeration compartment 200 cooling of ice machine is not installed.

Coolant flows through second compressor the 201, second condenser the 202, second capillary tube the 204, the 3rd vaporizer 205 and successively Second reservoir 206, coolant flows back to the second compressor 201 the most again, thus by the second compressor 201, second of serial communication The single circulation refrigeration system that condenser the 202, second capillary tube the 204, the 3rd vaporizer 205 and the second reservoir 206 are constituted is independent Refrigeration compartment 200 cooling of ice machine is not installed for ice making refrigerator, thus the present embodiment provides a kind of simple, feasible single cycle Refrigeration system implementation, and this single circulation refrigeration system adjusts compressor horsepower and realizes not installing the refrigeration compartment of ice machine Mutual conversion between cold preservation pattern and frozen mode.Additionally, the second condenser 202 includes spaced second left condenser 2022 and second right condenser 2021, and can set up anti-condensation between the second left condenser 2022 and the second right condenser 2021 Pipe 400.

Alternatively, also connect between the second condenser 202 with the second capillary tube 204 and be provided with the second device for drying and filtering 203.When When coolant flows through the second device for drying and filtering 203, moisture contained in coolant is adsorbed by the second device for drying and filtering 203, and dirt also can Stopped by the drainage screen of the second device for drying and filtering 203, thus build-up ice pearl when avoiding the water vapour in coolant below 0 DEG C and hinder Plug capillary tube (the i.e. second capillary tube 204), avoids the dirt in coolant or dust to enter capillary tube (the i.e. second capillary tube simultaneously 204) result in blockage.

Alternatively, the first condenser 102 and/or the second condenser 202 inside are provided with anti-condensation pipe 400.Anti-condensation pipe 400 Can be connected with condenser (first condenser 102 and/or the second condenser 202), during refrigeration for refrigerator, gases at high pressure shape Coolant flows through can generate heat from anti-condensation pipe 400, thus prevents the pipeline near condenser because of when the temperature difference is big and surrounding enviroment are moist The globule occurs, thus plays anti-condensation effect.

Additionally, the second vaporizer is arranged near ice machine, it is preferable that the second vaporizer is arranged on the system with ice machine Cold ceiling portion, it is simple to the pipeline of refrigeration system is arranged.

Alternatively, ice machine is detachably connected in the door body of ice making refrigerator, and user can when opening ice making refrigerator door Conveniently take the ice cube made, and can conveniently pull down ice machine and be carried out or safeguard.It addition, be provided with system at ice machine Ice maker fan, this ice machine fan is for improving the heat exchange between ice machine and this ice machine place refrigeration compartment, it is to avoid system The waste of the unnecessary cold that cold room or ice machine produce, i.e. when ice machine cold is too much, ice machine fan is by ice machine Cold is blown to refrigeration compartment, and when refrigeration compartment cold is too much, the cold of refrigeration compartment is blown to ice machine by ice machine risk.

These are only the preferred embodiments of the present invention, not thereby limit the scope of the claims of the present invention, every utilize this Equivalent structure or equivalence flow process that bright description and accompanying drawing content are made convert, or are directly or indirectly used in other relevant skills Art field, is the most in like manner included in the scope of patent protection of the present invention.

Claims (10)

1. an ice making refrigerator, it is characterised in that described ice making refrigerator includes ice machine, casing and refrigeration system, described casing Inside is provided with one or more refrigeration compartment, is provided with ice machine inside at least one described refrigeration compartment, and described refrigeration system is only There is double round robin cooling system or include separate single circulation refrigeration system and double round robin cooling system；

Described double round robin cooling system, to being provided with the refrigeration compartment cooling of ice machine to realize cold preservation or frozen mode, the most double follows A circularly cooling subsystem in ring refrigeration system is to ice machine cooling, and a cycle refrigeration system is to the system being provided with ice machine Cold room cooling；Described single circulation refrigeration system is to not installing the refrigeration compartment cooling of ice machine to realize cold preservation or freezing mould Formula.

2. ice making refrigerator as claimed in claim 1, it is characterised in that described double round robin cooling system includes pipeline series connection successively First compressor, the first condenser, three-way magnetic valve, evaporator assemblies and first reservoir of connection, described evaporator assemblies Including the first vaporizer being connected in parallel and the second vaporizer, described first vaporizer supplies to the refrigeration compartment being provided with ice machine Cold, described second vaporizer is to ice machine cooling, and described three-way magnetic valve controls first parallel branch at the first vaporizer place Simultaneously turn on second parallel branch at the second vaporizer place or any one parallel branch conducting.

3. ice making refrigerator as claimed in claim 2, it is characterised in that be additionally provided with in described first parallel branch and the first evaporation First capillary tube of device series connection.

4. ice making refrigerator as claimed in claim 2, it is characterised in that be additionally provided with in described second parallel branch and the second evaporation The return-air heat exchanger of device series connection.

5. ice making refrigerator as claimed in claim 2, it is characterised in that also go here and there between described three-way magnetic valve and the first condenser Connection is provided with the first device for drying and filtering.

6. ice making refrigerator as claimed in claim 1, it is characterised in that described single circulation refrigeration system includes pipeline series connection successively Second compressor, the second condenser, the second capillary tube, the 3rd vaporizer and second reservoir of connection, described 3rd vaporizer To the refrigeration compartment cooling not installing ice machine.

7. ice making refrigerator as claimed in claim 6, it is characterised in that also go here and there between described second condenser and the second capillary tube Connection is provided with the second device for drying and filtering.

8. the ice making refrigerator as described in claim 2 or 6, it is characterised in that in described first condenser and/or the second condenser Portion is provided with anti-condensation pipe.

9. ice making refrigerator as claimed in claim 1, it is characterised in that the refrigeration compartment of described ice making refrigerator includes that inside is provided with First room of ice machine and the internal second compartment being not provided with ice machine, described ice making refrigerator also includes master control borad, Yi Jijun The first temperature sensor electrically connected with master control borad and the second temperature sensor, first room is located in described first temperature sensor In, described second temperature sensor is located in second compartment；

Master control borad controls described double round robin cooling system to first room based on the first temperature value that the first temperature sensor gathers Cooling, switches realizing first room between cold preservation pattern and frozen mode；

Master control borad controls described single circulation refrigeration system to second compartment based on the second temperature value that the second temperature sensor gathers Cooling, switches realizing second compartment between cold preservation pattern and frozen mode.

10. ice making refrigerator as claimed in claim 9, it is characterised in that described ice making refrigerator also includes being located between first indoor Primary heater and the secondary heater be located in second compartment, described primary heater and secondary heater all and master control borad Electrical connection；

During first room by frozen mode switching cold preservation pattern, master control borad controls primary heater auxiliary heating；Between second When room is by frozen mode switching cold preservation pattern, master control borad controls secondary heater auxiliary heating.