CN109000401A - Refrigerator - Google Patents

Refrigerator Download PDF

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Publication number
CN109000401A
CN109000401A CN201710419000.9A CN201710419000A CN109000401A CN 109000401 A CN109000401 A CN 109000401A CN 201710419000 A CN201710419000 A CN 201710419000A CN 109000401 A CN109000401 A CN 109000401A
Authority
CN
China
Prior art keywords
refrigerator
processed
defrosting
freezing compartment
module
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
CN201710419000.9A
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Chinese (zh)
Other versions
CN109000401B (en
Inventor
戴建斌
李鹏
徐同
朱小兵
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Haier Smart Home Co Ltd
Original Assignee
Qingdao Haier Co Ltd
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Publication date
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Priority to CN201710419000.9A priority Critical patent/CN109000401B/en
Publication of CN109000401A publication Critical patent/CN109000401A/en
Application granted granted Critical
Publication of CN109000401B publication Critical patent/CN109000401B/en
Active legal-status Critical Current
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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D11/00Self-contained movable devices, e.g. domestic refrigerators
    • F25D11/02Self-contained movable devices, e.g. domestic refrigerators with cooling compartments at different temperatures
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B6/00Heating by electric, magnetic or electromagnetic fields
    • H05B6/46Dielectric heating
    • H05B6/48Circuits
    • AHUMAN NECESSITIES
    • A23FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
    • A23BPRESERVING, e.g. BY CANNING, MEAT, FISH, EGGS, FRUIT, VEGETABLES, EDIBLE SEEDS; CHEMICAL RIPENING OF FRUIT OR VEGETABLES; THE PRESERVED, RIPENED, OR CANNED PRODUCTS
    • A23B4/00General methods for preserving meat, sausages, fish or fish products
    • A23B4/06Freezing; Subsequent thawing; Cooling
    • A23B4/07Thawing subsequent to freezing
    • AHUMAN NECESSITIES
    • A23FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
    • A23LFOODS, FOODSTUFFS, OR NON-ALCOHOLIC BEVERAGES, NOT COVERED BY SUBCLASSES A21D OR A23B-A23J; THEIR PREPARATION OR TREATMENT, e.g. COOKING, MODIFICATION OF NUTRITIVE QUALITIES, PHYSICAL TREATMENT; PRESERVATION OF FOODS OR FOODSTUFFS, IN GENERAL
    • A23L3/00Preservation of foods or foodstuffs, in general, e.g. pasteurising, sterilising, specially adapted for foods or foodstuffs
    • A23L3/36Freezing; Subsequent thawing; Cooling
    • A23L3/365Thawing subsequent to freezing
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D23/00General constructional features
    • F25D23/12Arrangements of compartments additional to cooling compartments; Combinations of refrigerators with other equipment, e.g. stove
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D29/00Arrangement or mounting of control or safety devices
    • F25D29/005Mounting of control devices
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B6/00Heating by electric, magnetic or electromagnetic fields
    • H05B6/46Dielectric heating
    • H05B6/62Apparatus for specific applications

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Chemical & Material Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • Thermal Sciences (AREA)
  • General Engineering & Computer Science (AREA)
  • Polymers & Plastics (AREA)
  • Food Science & Technology (AREA)
  • Electromagnetism (AREA)
  • Nutrition Science (AREA)
  • Health & Medical Sciences (AREA)
  • Wood Science & Technology (AREA)
  • Zoology (AREA)
  • Freezing, Cooling And Drying Of Foods (AREA)
  • Devices That Are Associated With Refrigeration Equipment (AREA)

Abstract

The present invention provides a kind of refrigerators.The refrigerator includes the cabinet and thawing apparatus for defining the refrigerator room and freezing compartment that are sequentially distributed along the vertical direction of refrigerator, it is respectively arranged with a vertical beam in refrigerator room and freezing compartment, refrigerator room and freezing compartment are divided into two compartments in left and right respectively.Thawing apparatus includes: the cylinder that the defrosting chamber with forward opening is defined in it;It is set at the forward opening of defrosting chamber for being opened and closed the device door body of defrosting chamber;Module occurs for the radio frequency for being configured to generate radiofrequency signal;It horizontally is arranged at the top of defrosting chamber respectively, at bottom wall, and the upper and lower electrode plate that module is electrically connected occurs with radio frequency respectively, the rf wave of corresponding frequencies is generated in defrosting chamber according to radiofrequency signal, and the indoor object to be processed of the chamber that thaws, and thawing apparatus is set in freezing compartment.Thawing apparatus is arranged in the freezing compartment of refrigerator the present invention, picks and places object to be processed convenient for user, improves the convenience of user.

Description

Refrigerator
Technical field
The present invention relates to defrosting fields, more particularly to a kind of refrigerator with quick-thawing function.
Background technique
During freezing, the quality of food is kept food, however the food freezed is before processing or is edible It needs to thaw.For the ease of user's freezing and thawed foodstuff, the prior art in refrigerator generally by being arranged heating device or micro- Wave apparatus carrys out thawed foodstuff.
However, generally requiring longer thawing time by heating device come thawed foodstuff, and thawing time and temperature are not It easily grasps, be easy to cause moisture evaporation and the juice loss of food, the quality of food is made to incur loss;It is solved by microwave device Freeze food, speed is fast, high-efficient, so the nutrient component damages of food are very low, but due to microwave to water and ice penetrate and Absorption has difference, and the inner material of food is unevenly distributed, and the energy that the region melted absorbs is more, and it is uneven to be also easy to produce defrosting The problem of uniform hot-spot.Comprehensively consider, needs one kind that there is high defrosting efficiency in design, thaws uniformly and can guarantee and eat The refrigerator of article matter.
Summary of the invention
It is an object of the present invention to provide a kind of convenient refrigerator that thaws.
A further object of the present invention is to avoid object to be processed from excessively being thawed.
Particularly, it the present invention provides a kind of refrigerator, is sequentially distributed including defining the vertical direction along the refrigerator It is perpendicular to be respectively arranged with one in the refrigerator room and freezing compartment for the cabinet and thawing apparatus of refrigerator room and freezing compartment The refrigerator room and freezing compartment are divided into two compartments in left and right by beam respectively;Wherein the thawing apparatus includes:
Cylinder inside defines the defrosting chamber with forward opening, and the defrosting chamber is for placing object to be processed;
Device door body is set at the forward opening of the defrosting chamber, for being opened and closed the defrosting chamber;
Module occurs for radio frequency, is configured to generate radiofrequency signal;With
Electric pole plate and lower electrode plate, horizontally are arranged at respectively at the roof and bottom wall of the defrosting chamber, and respectively Module occurs with the radio frequency to be electrically connected, to generate the radio frequency of corresponding frequencies in the defrosting chamber according to the radiofrequency signal Wave, and the indoor object to be processed of the defrosting chamber that thaws;And
The thawing apparatus is set in the freezing compartment.
Optionally, the back plate of the cylinder offers device air inlet, and the back plate of the cylinder and the freezing compartment Rear wall there are gaps so that the indoor air of the freezer enters to the defrosting chamber via described device air inlet; And
The side plate of the both lateral sides of the cylinder offers device air outlet, and the side plate of the both lateral sides of the cylinder with There are gaps for the side wall of the both lateral sides of the freezing compartment, so that the indoor gas of defrosting chamber is arranged via device air outlet Out to the freezing compartment.
Optionally, the rear wall of the cylinder and the side plate of both lateral sides and the rear wall of corresponding freezing compartment and both lateral sides Side wall distance be 2~3mm.
Optionally, the refrigerator is wind cooling refrigerator;
The freezing compartment includes air duct cover board, the sandwiched formation of liner rear wall of the air duct cover board and the freezing compartment Air duct is freezed, and offers freezing air inlet on the air duct cover board, to provide cooling capacity for the freezing compartment;And
The compartment of left and right two of the freezing compartment defines multiple accommodation spaces respectively, and the freezing air inlet is set to In the accommodation space of the top of the left side compartment of the freezing compartment;
The thawing apparatus is set in the accommodation space of the top, in order to which the freezing air duct is the defrosting Device provides cooling capacity.
Optionally, projection of the described device air inlet on the thickness direction of the air duct cover board is in freezing air inlet In mouthful, in order to which the freezing air duct provides cooling capacity for the thawing apparatus.
Optionally, the refrigerator further includes the compartment of left and right two for being opened and closed the refrigerator room and freezing compartment respectively Refrigeration door body and freezing door body, wherein
Any refrigeration door body is provided with the defrosting switch started or stopped for controlling thaw routine, in order to adjust The defrosting switch;And the radio frequency occurs module and is configured that
When the defrosting, which switchs, opens, start to work;
When the defrosting, which switchs, closes, stop working.
Optionally, the thawing apparatus further include:
Whether infrared sensor is set on the inner wall of the defrosting chamber, be placed with sensing in the defrosting chamber The object to be processed.
Optionally, the refrigerator is configured that
When the defrosting, which switchs, opens, stop providing cooling capacity for the freezing compartment;
When the object to be processed takes out out of described defrosting chamber, the former refrigerant sequence of the refrigerator is run;
After the completion of the object to be processed thaws, the time that do not take out out of described defrosting chamber is more than or equal to a pre- timing Between threshold value when, provide cooling capacity for the freezing compartment.
Optionally, the refrigerator further include:
Detection module is configured to detection and connects the incidence wave that the electrical wiring of module and the electric pole plate occurs for the radio frequency Signal and reflection wave signal, and according to the voltage and current of the incidence wave signal and the voltage of the reflection wave signal and Electric current calculates the rate of change of the dielectric coefficient of the object to be processed, to judge the defrosting progress of the object to be processed.
Optionally, the radio frequency generation module is configured that
When the rate of change of the dielectric coefficient of the object to be processed is more than or equal to first rate threshold value, operating power drop Low 30%~40%, to prevent the object to be processed from excessively being thawed;And/or
When the rate of change of the dielectric coefficient of the object to be processed drops below or equal to the second rate-valve value, stop work Make.
Thawing apparatus is arranged in the freezing compartment of refrigerator the present invention, picks and places object to be processed convenient for user, improves use The convenience at family.
Further, the present invention calculates the rate of change of the dielectric coefficient of object to be processed by detection module, come judge to The defrosting progress of processed material.Before making the present invention, those skilled in the art are it is believed that the temperature when object to be processed is higher When (temperature of object i.e. to be processed is more than or equal to -7 DEG C), fuel factor can significantly decay, thus object to be processed will not excessively be thawed. However actual conditions are really not so, usual radio frequency defrosting power is larger, be greater than 100W, when object to be processed self-temperature When higher, object to be processed is easily excessively thawed.Present inventor creatively recognizes, when object to be processed temperature When higher, the operating power that module occurs for radio frequency is reduced by 30~40%, object to be processed can be effectively prevented and excessively thawed.Into One step, whether the present invention judges to thaw by the rate of change of the dielectric coefficient of object to be processed completes, compared with the prior art In judge to thaw by sensing the temperature of object to be processed and whether complete, it is more accurate to judge, can further prevent object to be processed It is excessively thawed, and test shows the object to be processed to be thawed by thawing apparatus of the invention, the temperature thawed when completing is general It is -4~-2 DEG C, can avoid thawing when object to be processed is meat and generating watery blood.
According to the following detailed description of specific embodiments of the present invention in conjunction with the accompanying drawings, those skilled in the art will be brighter The above and other objects, advantages and features of the present invention.
Detailed description of the invention
Some specific embodiments of the present invention is described in detail by way of example and not limitation with reference to the accompanying drawings hereinafter. Identical appended drawing reference denotes same or similar part or part in attached drawing.It should be appreciated by those skilled in the art that these What attached drawing was not necessarily drawn to scale.In attached drawing:
Fig. 1 is the schematic diagram of refrigerator according to an embodiment of the invention, wherein all outer door body of the refrigerator It is all removed, with cell structure between showing in refrigerator body;
Fig. 2 is the schematic cross sectional views of the cutting line A-A interception in Fig. 1;
Fig. 3 is the schematic partial enlarged view of region B in Fig. 2;
Fig. 4 is the schematic cross sectional views of the cutting line C-C interception in Fig. 3;
Fig. 5 is the rate of change curve graph of the dielectric coefficient of object to be processed according to an embodiment of the invention;
Fig. 6 is the schematic diagram of Tu2Zhong compressor room;
Fig. 7 is the schematic diagram of thawing apparatus in Fig. 3, and wherein the device door body of the thawing apparatus is removed, to show The internal structure of cylinder out;
Fig. 8 is the flow chart of the defreezing method according to an embodiment of the invention for refrigerator.
Specific embodiment
Fig. 1 is the schematic diagram of refrigerator according to an embodiment of the invention, wherein all outer door body of the refrigerator It is all removed, with cell structure between showing in refrigerator body;Fig. 2 is the schematic sectional of the cutting line A-A interception in Fig. 1 Figure;Fig. 3 is the schematic partial enlarged view of region B in Fig. 2.Referring to Fig. 1 to Fig. 3, refrigerator 10 may include defining along refrigerator 10 The vertical direction cabinet 100 and thawing apparatus 200 of the refrigerator room 110 and freezing compartment 120 that are sequentially distributed.Refrigerator It can be respectively arranged with a vertical beam 130 in room 110 and freezing compartment 120, refrigerator room 110 and freezing compartment 120 are separated respectively For two compartments in left and right.Refrigerator 10 may also include between the left and right two for being opened and closed refrigerator room 110 and freezing compartment 120 respectively The refrigeration door body 111 and freezing door body 121 of room.Particularly, thawing apparatus 200 may be disposed in freezing compartment 120.Thawing apparatus 200 can be fixed in freezing compartment 120 by modes such as interference fit, overlap joint or clampings.Thawing apparatus 200 is arranged the present invention In the freezing compartment 120 of refrigerator 10, object to be processed is picked and placed convenient for user, improves the convenience of user, such as user can be pre- First object to be processed is placed in defrosting chamber 214, restarts thaw routine when needing to thaw.
In addition, also illustratable be, knownly, refrigerator room 110 refers to the preservation to food materials to those skilled in the art The storage room that temperature is 0~+8 DEG C;The storing that it is -20~-15 DEG C between the preservation temperature of food materials that freezing compartment 120, which refers to, Room.
Specifically, thawing apparatus 200 may include cylinder 210, device door body 220, radio frequency generation module 230 and power on Pole plate 240a and lower electrode plate 240b.Cylinder 210 may include top plate and bottom plate, back plate and two opposite lateral side plates, in The defrosting chamber 214 with forward opening can be defined, defrosting chamber 214 is for placing object to be processed.Device door body 220 can be set It is placed at the forward opening of defrosting chamber 214, is used to open or closes defrosting chamber 214.Device door body 220 can pass through appropriate side Method is installed together with cylinder 210, such as L.H.flapped door, R.H.flapped door, upward-acting door or sliding door.It is configurable that module 230 occurs for radio frequency To generate radiofrequency signal (referring generally to frequency in the radiofrequency signal of 300KHz~300GHz).Electric pole plate 240a and lower electrode plate 240b can horizontally be arranged at respectively at the roof and bottom wall of defrosting chamber 214, and module 230 occurs with radio frequency respectively and is electrically connected It connects, the rf wave that the radiofrequency signal that module 230 generates generates relevant parameter in defrosting chamber 214 occurs according to radio frequency, and Thaw the object to be processed being placed in defrosting chamber 214.In the present invention, electric pole plate 240a is transmitting antenna;Lower electrode plate 240b is receiving antenna.In some embodiments, 50 ohm of electrical wiring, which can be used, makes electric pole plate 240a and lower electrode plate 240b occurs module 230 with radio frequency respectively and is electrically connected.
In some embodiments, thawing apparatus 200 may also include detection module 250.Detection module 250 can be configured to detect Module 230 and the electrical wiring of electric pole plate 240a occur for radio frequency incidence wave signal and reflection wave signal are connected, and according to incidence The voltage and current of wave signal and the voltage and current of reflection wave signal calculate the load impedance that module 230 occurs for radio frequency. The calculation formula of load impedance is as follows:
SWR=Z2/Zl (1)
Zl=Ul/II=RI+jXl (2)
Z2=U2/l2=R2+jX2 (3)
In formula (1), (2), (3): SWR is standing-wave ratio;Z1For output impedance;Z2For load impedance;U1For incidence wave electricity Pressure;I1For incidence wave electric current;R1For output resistance;X1For output reactance;U2For reflected wave voltage;I2For back wave electric current;R2For Load resistance;X2For load reactance, (understandably, output impedance is that module 230 occurs for connection radio frequency to those skilled in the art With the impedance of the electrical wiring of electric pole plate 240a, load impedance is the impedance of object to be processed).
Thawing apparatus 200 may also include load compensation module 260.Load compensation module 260 may include a compensating unit and For adjusting the motor of the impedance of compensating unit.Compensating unit may be configured as connecting with object to be processed, i.e., mould occurs for radio frequency at this time The load impedance of block 230 be object to be processed impedance and compensating unit impedance and.Motor can be configured to controllably to increase or Reduce the impedance of compensating unit, and then increases or reduces the load impedance Z that module 230 occurs for radio frequency2, and make radio frequency that module occur 230 load impedance Z2With output impedance Z1Difference (i.e. load impedance Z2Subtract output impedance Z1Obtained numerical value) it is more than or equal to One first impedance threshold and it is less than or equal to one second impedance threshold, and the first impedance threshold is less than the second impedance threshold, to improve The defrosting efficiency of object to be processed.In some preferred embodiments, the first impedance threshold is output impedance Z1- 6~-4%, second Impedance threshold is output impedance Z14~6%.It is further preferred that the first impedance threshold is output impedance Z1- 5%, second Impedance threshold is output impedance Z15%.In other words, load compensation module can be configured to make radio frequency that the negative of module 230 occur Carry impedance Z2With output impedance Z1Absolute value of the difference, output impedance Z is always less than in entire course of defrosting15%, such as It can be output impedance Z11%, 3% or 5%.
Detection module 250 can be configured to the load impedance Z that module 230 further occurs according to radio frequency2, calculate object to be processed Dielectric coefficient and dielectric coefficient rate of change, to judge the defrosting progress of object to be processed.The dielectric coefficient of object to be processed Calculation formula is as follows:
X2=1/2 π fC (4)
The π of ε=4 KdC/S (5)
In formula (4), (5): f is the frequency of rf wave;C is the electricity that electric pole plate 240a and lower electrode plate 240b is constituted The capacitor of container;ε is the dielectric coefficient of object to be processed;K is dielectric constant;D is the thickness of electric pole plate;S is electric pole plate Area.
The rate of change of the dielectric coefficient of object to be processed can pass through the variation of the dielectric coefficient ε in unit of account time Δ t It is worth Δ ε to obtain, wherein unit time Δ t can be 0.1 second~1 second, such as 0.1 second, 0.5 second or 1 second.Fig. 5 is according to the present invention (ordinate is the change of the dielectric coefficient of object to be processed to the rate of change curve graph of the dielectric coefficient of the object to be processed of one embodiment Change rate Δ ε/Δ t;Abscissa is the thawing time t, unit min of object to be processed).Referring to Fig. 5, in some preferred embodiments In, module 230, which occurs, for radio frequency can be configured to be more than or equal to the first speed as rate of change Δ ε/Δ t of the dielectric coefficient of object to be processed When rate threshold value, operating power reduces by 30%~40%, such as 30%, 35% or 40%, to prevent object to be processed from excessively being solved Freeze (those skilled in the art understandably, excessively thaw and are greater than 0 DEG C for the temperature of object to be processed).First rate threshold value can be 15~20, such as 15,17,18 or 20.Module 230, which occurs, for radio frequency may be additionally configured to when the variation of the dielectric coefficient of object to be processed is fast When rate Δ ε/Δ t drops below or equal to the second rate-valve value, stop working.Second rate-valve value can be 1~2, such as 1,1.5 Or 2.
With the temperature change of object to be processed, the dielectric coefficient of object to be processed can also change therewith, be those skilled in the art Member is known, however dielectric coefficient is usually measured by special instrument (such as dielectric coefficient tester), and special instrument occupies sky Between it is big, at high cost, be not suitable for refrigerator.The electricity of module 230 and electric pole plate 240a occurs by detection connection radio frequency for the present invention The incidence wave signal and reflection wave signal of line, are computed the dielectric coefficient for obtaining object to be processed, occupy little space and at low cost, Especially suitable for the thawing apparatus in refrigerator.And by load compensation module 260 make radio frequency occur module 230 load impedance with The difference of output impedance was in a preset range (be more than or equal to one first impedance threshold and be less than or equal to one second impedance threshold), Improve the defrosting efficiency of object to be processed.
Further, the present invention calculates the rate of change of the dielectric coefficient of object to be processed by detection module 250, to judge The defrosting progress of object to be processed.Before making the present invention, those skilled in the art are it is believed that the temperature when object to be processed is higher When (temperature of object i.e. to be processed is more than or equal to -7 DEG C), fuel factor can significantly decay, thus object to be processed will not excessively be thawed. However actual conditions are really not so, usual radio frequency defrosting power is larger, be greater than 100W, when object to be processed self-temperature When higher, object to be processed is easily excessively thawed.Present inventor creatively recognizes, when object to be processed temperature When higher, the operating power that module 230 occurs for radio frequency is reduced by 30~40%, object to be processed can be effectively prevented and decomposed excessively Freeze.Further, whether the present invention judges to thaw and complete by the rate of change of the dielectric coefficient of object to be processed, compared to existing Judge to thaw whether complete by sensing the temperature of object to be processed in technology, it is more accurate to judge, can further prevent wait locate Reason object is excessively thawed, and test shows the object to be processed to be thawed by thawing apparatus of the invention, the temperature one thawed when completing As be -4~-2 DEG C, can avoid when object to be processed be meat when, thaw generate watery blood.
Fig. 6 is the schematic diagram of Tu2Zhong compressor room 140.Referring to Fig. 6, the cabinet 100 of refrigerator 10 is further defined with pressure Contracting machine room 140.Compressor room 140 may include set gradually for control refrigerator 10 operation master control borad 143, compressor 141, Condensation water collection structure 144 and for for refrigerator 10 operation power supply circumscripted power line (not shown).In some implementations In example, refrigerator 10 may also include for the power supply module 142 that module 230 is powered to occur for radio frequency.Power supply module 142 may be disposed at In the compressor room 140 of refrigerator 10, in order to the heat dissipation and maintenance of power supply module 142.Power supply module 142 is securable to compressor The upper wall of room 140, in order to which being electrically connected for module 230 and power supply module 142 occurs for radio frequency.In some embodiments, power supply mould Block 142 can be DC-DC converter.DC-DC converter may be configured as being electrically connected with master control borad 143, for the power supply of thawing apparatus 200. DC-DC converter may be disposed between master control borad 143 and compressor 141, so that it is more convenient with being electrically connected for master control borad 143. In further embodiments, power supply module 142 can be ACDC converter.ACDC converter may be configured as the external electricity with refrigerator 10 Source electrical connection.Those skilled in the art understandably, by the control circuit phase of all parts of thawing apparatus 200 and refrigerator 10 It is even easy to accomplish.
Fig. 4 is the schematic cross sectional views of the cutting line B-B interception in Fig. 3.Referring to Fig. 3 and Fig. 4, cylinder 210 can also be wrapped Include the vertical baffle 211 and horizontal baffle 212 of the inner space for limiting cylinder 210.Vertical baffle 211 may be configured as from cylinder The top plate of body 210 extends to the bottom plate of cylinder 210 in the vertical direction.Module 230, which occurs, for radio frequency may be disposed at 211 He of vertical baffle Between the back plate of cylinder 210.Horizontal baffle 212 may be configured as extending forward in the horizontal direction from vertical baffle 211.Detection module 250 and load compensation module 260 may be disposed between horizontal baffle 212 and the top plate of cylinder 210.Defrosting chamber 214 can be by erecting It is surrounded to partition 211, the bottom plate of horizontal baffle 212 and cylinder 210 and two lateral side plates.Electric pole plate 240a may be disposed at The lower surface of horizontal baffle 212, lower electrode plate 240b may be disposed at the upper surface of the bottom plate of cylinder 210.Cylinder 210 may also include The baffle 213 of the top plate of cylinder 210 is extended upwardly to, in the vertical direction from the anterior end of horizontal baffle 212 to prevent from detecting Module 250 and load compensation module 260 are exposed, reduce the aesthetics of thawing apparatus 200.In further embodiments, may be used (size of radio frequency generation module 230 and detection module 250 and load compensation module 260) according to the actual situation, by water Flat partition board 212 is set as extending forward in the horizontal direction from the back plate of cylinder 210, and vertical baffle 211 is set as from horizontal baffle 212 extend to the bottom plate of cylinder 210 in the vertical direction.
Vertical baffle 211 can offer the first thread passing port 2112, so that module 230 occurs for radio frequency via the first thread passing port 2112 are electrically connected with electric pole plate 240a.The back plate of cylinder 210 can offer the second thread passing port 216, so that thawing apparatus 200 Electrical wiring draws from the second thread passing port 216, and is connected with power supply module 142.
In some embodiments, the back plate of cylinder 210 can offer device air inlet 215, the rear side of defrosting chamber 214 Vertical baffle 211 can offer defrosting air inlet 2111, so that the air in freezing compartment 120 is via 215 He of device air inlet Defrosting air inlet 2111 enters to the defrosting chamber 214 of thawing apparatus 200.The side plate of the both lateral sides of cylinder 210 can offer Device air outlet 218, so that the gas in defrosting chamber 214 is expelled to freezing compartment 120 via device air outlet 218.Cylinder 210 back plate can there are gaps with the rear wall of freezing compartment 120, in order to which the air in freezing compartment 120 enters to defrosting dress It sets in 200.The side plate of the both lateral sides of cylinder 210 can with the side walls of the both lateral sides of freezing compartment 120 there are gap, in order to Gas in thawing apparatus 200 is expelled in freezing compartment 120.When refrigerator 10 is direct cooling refrigerator, the rear wall of freezing compartment 120 For the rear wall of its liner;When refrigerator 10 is wind cooling refrigerator, the rear wall of freezing compartment 120 is the front surface of its interior air duct cover board.
In some preferred embodiments, the side plate of the back plate and both lateral sides of cylinder 210 and corresponding freezing compartment 120 The distance of rear wall and the side wall of both lateral sides can be 2~3mm, such as 2mm, 2.5mm or 3mm, to guarantee the tool of thawing apparatus 200 While having intake and air output appropriate, guarantee that defrosting chamber 214 has biggish dischargeable capacity.
In some embodiments, refrigerator 10 according to the present invention can be wind cooling refrigerator, and freezing compartment 120 may include air duct Cover board 122.Air duct cover board 122 and the sandwiched formation of the liner rear wall of freezing compartment 120 freeze air duct, and open on air duct cover board 122 Equipped with the freezing air inlet 1221 and freezing return air inlet for providing cooling capacity for freezing compartment 120.Freeze air inlet 1221 and cold Interior between the left compartment of freezing compartment 120 and the right side can be respectively arranged at by freezing return air inlet, be altered to avoid the food in freezing compartment 120 Taste.In some preferred embodiments, the compartment of the left and right of freezing compartment 120 two can define multiple accommodation spaces respectively, at this In invention, multiple is two, three or three with first-class, and thawing apparatus 200 may be disposed at neighbouring freezing air inlet 1221 In accommodation space.Referring to fig. 2, freezing air inlet 1221 is set to interior between the left side of freezing compartment 120, and due to usually freezing Air inlet 1221 is set in the accommodation space of the top of freezing compartment 120, therefore thawing apparatus 200 is preferably disposed on freezer In the accommodation space of the top of the left side compartment of room 120, in order to freeze the defrosting chamber 214 that air duct is thawing apparatus 200 Freeze.In some further preferred embodiments, the device air inlet 215 of thawing apparatus 200 is in air duct cover board 122 Projection on thickness direction can be in freezing air inlet 1221, in order to be made for the defrosting chamber 214 of thawing apparatus 200 It is cold.
The present invention is not being received by being provided with device air inlet 215 and device air outlet 218 on thawing apparatus 200 To when defrosting instruction, defrosting chamber 214 can be used to place food materials, and the storage space in freezing compartment 120 is made to obtain sufficient benefit With.
In some preferred embodiments, the device air inlet 215 of thawing apparatus 200 and defrosting air inlet 2111 can be set respectively The both lateral sides that module 230 occurs for radio frequency are placed in, in order to which the heat dissipation of module 230 occurs for radio frequency.In some alternate embodiments In, the device air inlet 215 and defrosting air inlet 2111 of thawing apparatus 200 may be disposed at the same side that module 230 occurs for radio frequency.
Thawing apparatus 200 may also include pallet 270.Pallet 270 is set in defrosting chamber 214, and object to be processed is placed In on pallet 270.Pallet 270 can be configured to controllably to move on the depth direction of defrosting chamber 214, in order to be processed The placement and taking-up of object.In some preferred embodiments, the lower surface of pallet 270 at a distance from lower electrode plate 240b can for 8~ 12mm, such as 8mm, 10mm, 12mm generate friction with lower electrode plate 240b to prevent during 270 pull of pallet.
In some embodiments, it may be provided on any refrigeration door body 111 and to be started or stopped for controlling thaw routine Thaw switch 112, in order to which user adjusts the switch 112 that thaws.Module 230, which occurs, for radio frequency can be configured to when defrosting 112 dozens, switch When opening, start to work;When the switch 112 that thaws is closed, stop working.In course of defrosting, user can be opened by closing to thaw 112 are closed to terminate thaw routine.It is also provided with buzzer (not shown) in any one compartment door body, for prompting to use Family object to be processed has thawed completion.Buzzer can be configured to (to be processed when detection module 250 judges that object defrosting to be processed is completed When the rate of change of the dielectric coefficient of object drops below or equal to the second rate-valve value), it starts to work;When object to be processed is from defrosting When being taken out in chamber 214, stop working.
Thawing apparatus 200 may also include infrared sensor 219.Infrared sensor 219 is set to the inner wall of defrosting chamber 214 On, object to be handled whether is placed in defrosting chamber 214 to sense.In some preferred embodiments, the refrigeration system of refrigerator 10 It can be configured to stop providing cooling capacity for freezing compartment 120, thaw to avoid to thawing apparatus 200 when the switch 112 that thaws is opened Object to be processed impacts;After the completion of object to be processed defrosting, taken out out of defrosting chamber 214 in a scheduled time threshold value When, run the former refrigerant sequence of refrigerator 10;After the completion of object to be processed defrosting, the time that do not take out out of defrosting chamber 214 is big When being equal to scheduled time threshold value, cooling capacity is provided for freezing compartment 120.It that is to say, object to be processed does not take out of defrosting chamber 214 It is temperature-resistant in defrosting chamber 214 when time out is less than scheduled time threshold value, make object to be processed within this time always In thawed state, in order to which user uses object to be processed;The time that object to be processed does not take out out of defrosting chamber 214 be greater than etc. When preset time threshold, refrigeration system is that freezing compartment 120 provides cooling capacity, object to be processed is freezed again, to guarantee wait locate Manage the quality of object.In the present invention, not from defrosting chamber after the completion of being thawed by the timer record object to be processed in refrigerator 10 The time taken out in room 214.Scheduled time threshold value can be 15~25min, such as 15min, 20min or 25min.
Fig. 7 is the schematic diagram of thawing apparatus in Fig. 3, and wherein the device door body of the thawing apparatus is removed, to show The internal structure of cylinder out.Referring to Fig. 1 and Fig. 7, cylinder 210 and device door body 220 can be respectively arranged with electromagnetic shielding feature 217.It is set to the electromagnetic shielding feature 217 of cylinder 210 and the electromagnetic shielding feature 217 for being set to device door body 220 is electrically conductive Connection, to reduce the outside magnetic dispersion amount of thawing apparatus 200 when device door body 220 is closed.Being electromagnetically shielded feature 217 can be The conductive coating of the inner surface (towards the surface of cylinder 210) of inner wall and device door body 220 coated on cylinder 210 is posted by The conductive metal mesh of the inner surface of the inner wall and device door body 220 of cylinder 210 or be formed in surround cylinder 210 each plate body it Neutralize the conductive metal mesh etc. in device door body 220.
In some preferred embodiments, thawing apparatus 200 may also include elastic conduction ring 280.Elastic conduction ring 280 It may be disposed at the peripheral region of the forward opening of defrosting chamber 214, so that it is squeezed and deformed when device door body 220 is closed, It is fitted closely with device door body 220, i.e., forms sealing between elastic conduction ring 280 and device door body 220.It is set to cylinder 210 electromagnetic shielding feature 217 and the electromagnetic shielding feature 217 for being set to device door body 220 can be respectively set to and elastic conducting Electric 280 conductive contact of ring, to reduce the outside magnetic dispersion amount of thawing apparatus 200 when device door body 220 is closed.Some In preferred embodiment, elastic conduction ring 280 can by silicone, silicone fluoride, EPDM, fluorocarbon-fluorine compound with And silver coated aluminum is made.Elastic conduction ring 280 can be hollow annular construction so that its device door body 220 close when, with device Door body 220 fits closely.The width of elastic conduction ring 280 can be 20~30mm, such as 20mm, 25mm or 30mm, to improve The leakproofness of thawing apparatus 200.In some preferred embodiments, the device air inlet 215 of thawing apparatus 200, defrosting air inlet 2111 and device air outlet 218 can be provided with conductive metal mesh 290, conductive metal mesh 290 may be configured as and be set to cylinder 210 electromagnetic shielding feature 217 is conductively connected, to reduce the magnetic dispersion amount of thawing apparatus 200.
Particularly, in the present invention, the radiofrequency signal that radio frequency occurs that module 230 generates (is used for the object to be processed that thaws Electromagnetic wave) it can be a preset fixed frequency within the scope of 40~42MHz, such as 40MHz, 40.48MHz, 40.68MHz, 41MHz Or 42MHz improves the temperature uniformity of object to be processed and reduces its juice loss rate to reduce the thawing time of object to be processed. In a preferred embodiment, the frequency of rf wave can be a preset fixed frequency within the scope of 40.48~40.68MHz, with further Ground reduces the thawing time of object to be processed, improves the temperature uniformity of object to be processed and reduces its juice loss rate.Wherein, when penetrating When the frequency of frequency wave is 40.68MHz, defrosting effect is best.
For a further understanding of the present invention, the preferred embodiments of the invention are carried out below with reference to more specific embodiment Description, however, the present invention is not limited to these examples.
Table 1
Embodiment 1 Embodiment 2 Embodiment 3 Embodiment 4 Embodiment 5 Comparative example 1 Comparative example 2
Frequency (MHz) 40 40.48 40.68 41 42 13.56 27.12
It is respectively arranged in the thawing apparatus 200 of the rf frequency of above-described embodiment 1-5 and comparative example 1-2, rf wave Power is 100W, and the structure and its workflow of thawing apparatus 200 are all the same.
Thawing apparatus 200 to the frequency for being provided with each embodiment and each comparative example, carries out defrosting measure of merit.Test is said It is bright: to select 1kg shape specification identical, and initial temperature is -18 DEG C of beef, be respectively placed in each embodiment and each comparative example On pallet 270 in thawing apparatus 200, thawing time, temperature uniformity and the liquid of each embodiment and each comparative example are measured respectively Juice turnover rate, wherein thawing time be from thaw, until thawing apparatus 200 judgement thaw complete (i.e. radio frequency generation module 230 Stop working) time;Temperature uniformity: after the completion of defrosting, the temperature of four corners of beef and central point is measured respectively, and is counted The difference of the average value of central point temperature and four corners is calculated, temperature uniformity is the ratio of the difference and the average value;Juice Turnover rate: the weight after measuring weight and defrosting before beef thaws respectively, and the two difference is calculated, juice loss rate is the difference The ratio of value and the weight before beef defrosting.
According to embodiment 1-7 and according to the defrosting measure of merit result such as table 2 of comparative example 1-2.
Table 2
Thawing time (min) Temperature uniformity Juice loss rate (%)
Embodiment 1 19 0.4 0.35
Embodiment 2 18 0.4 0.32
Embodiment 3 18 0.3 0.29
Embodiment 4 19 0.5 0.35
Embodiment 5 20 0.5 0.40
Comparative example 1 25 0.6 0.35
Comparative example 2 23 0.6 0.40
It is identical to can be seen that the power in rf wave according to the test result of embodiment 5 in table 2 and comparative example 1, and thaws In the case that the structure and its workflow of device 200 are all the same, under same test condition, using range of embodiment of the invention The defrosting effect of the thawing apparatus 200 of interior rf frequency is better than the thawing apparatus 200 of application rf frequency in the prior art, The former reduces 20% than the thawing time of the latter, and temperature uniformity improves 17%.
It can be seen that the thawing apparatus 200 using various embodiments of the present invention according to the test result of embodiment 1-5 in table 2 Thawing time in 20min hereinafter, temperature uniformity is 0.5 hereinafter, juice loss rate is below 0.40%.By into The frequency (such as rf frequency is in 40.48~40.68MHz) of the preferred rf wave of one step, can be by the thawing time of thawing apparatus 200 It reduces to 18min hereinafter, temperature uniformity is improved to 0.4 hereinafter, juice loss rate is reduced to 0.32% or less.
Fig. 8 is the flow chart of the defreezing method according to an embodiment of the invention for refrigerator 10.Referring to Fig. 8, this hair The defreezing method of bright refrigerator 10 may include steps of:
Step S802: judging whether defrosting switch 112 is opened, if so, executing step S804;If it is not, executing step S802.
Step S804: power supply module 142 is started to work.
Step S806: whether judgment means door body 220 closes, if so, executing step S808;If it is not, executing step S806. In this step, using the open and-shut mode of door opening detection device detection device door body 220.Door opening detection device can use fan The various ways such as shape switch, magnet-sensitive switch, Hall switch are detected, and are closed completely or are opened the time-division in device door body 220 Different electric signals is not generated, with the state of instruction device door body 220.
Step S808: refrigeration system stops providing cooling capacity for freezing compartment 120, and radio frequency generation module 230 generation 40~ The radiofrequency signal of 42MHz, the detection of detection module 250 connection radio frequency generation module 230 enter with the electrical wiring of electric pole plate 240a Ejected wave signal and reflection wave signal.Operating procedure S810 and step S811.In this step, the generation of module 230 occurs for radio frequency 40.68MHz radiofrequency signal.
Step S810: obtain incidence wave signal voltage and current and reflection wave signal voltage and current, calculate to Rate of change Δ ε/Δ t of the dielectric coefficient of processed material.
Step S812: judge whether rate of change Δ ε/Δ t of the dielectric coefficient of object to be processed is more than or equal to first rate Threshold value, if so, executing step S814;If it is not, executing step S810.
Step S814: the operating power that module 230 occurs for radio frequency reduces by 30%~40%.In this step, radio frequency occurs The operating power of module 230 can reduce by 35%.
Step S816: obtain incidence wave signal voltage and current and reflection wave signal voltage and current, calculate to Rate of change Δ ε/Δ t of the dielectric coefficient of processed material.
Step S818: judge whether rate of change Δ ε/Δ t of the dielectric coefficient of object to be processed is less than or equal to the second rate Threshold value, if so, executing step S820;If it is not, executing step S816.
Step S820: power supply module 142 stops working, and the switch 112 that thaws is resetted and (closed), runs the original of refrigerator 10 Refrigerant sequence, buzzer are started to work.
Step S822: timer starts timing.
Step S824: judging whether object to be processed takes out out of defrosting chamber 214, if so, executing step S826;If not; Execute step S828.
Step S826: buzzer stops working, and runs the former refrigerant sequence of refrigerator 10.
Step S828: judging whether the numerical value of timer is more than or equal to scheduled time threshold value, if so, executing step S830; If it is not, executing step S824.
Step S830: timer is reset, and buzzer stops working, and the refrigeration system of refrigerator 10 is that freezing compartment 120 provides Cooling capacity.
Step S811: obtaining the voltage and current of incidence wave signal and the voltage and current of reflection wave signal, calculating are penetrated The load impedance Z for the raw module 230 that takes place frequently2
Step S813: judge that the load impedance Z of module 230 occurs for radio frequency2With output impedance Z1Difference whether less than first Impedance threshold, if so, executing step S815;If it is not, executing step S817.
Step S815: the motor work of load compensation module 260 increases the impedance of compensating unit.Return step S811.
Step S817: judge that the load impedance Z of module 230 occurs for radio frequency2With output impedance Z1Difference whether be greater than second Impedance threshold, if so, executing step S819;If it is not, executing step S811.
Step S819: the motor work of load compensation module 260 reduces the impedance of compensating unit.Return step S811.
It will be appreciated by those skilled in the art that ground, when program is run to step S820, power supply module 142 stops working, Stop power supply, radio frequency occurs module 230, detection module 250 and load compensation module 260 and stops working, i.e., when wait locate When rate of change Δ ε/Δ t of the dielectric coefficient of reason object drops below or equal to the second rate-valve value, detection module 250 stops inspection Survey module 230 and the electrical wiring of electric pole plate 240a occur for connection radio frequency incidence wave signal and reflection wave signal, load compensation Module 260 stops working.
One defrosting workflow of the refrigerator 10 of one embodiment of the invention can include: when user opens the switch that thaws 112 and device door body 220 when closing, power supply module 142 starts to power, and the refrigeration system of refrigerator 10 stops being freezing compartment 120 Cooling capacity is provided, the radiofrequency signal that module 230 generates 40.68MHz occurs for radio frequency, and detection module 250 and load compensation module 260 are opened Beginning work.The detection connection radio frequency of detection module 250 occur the electrical wiring of module 230 and electric pole plate 240a incidence wave signal and Reflection wave signal, and calculate the load impedance Z of RF transmitter 2302And rate of change Δ ε/Δ t of dielectric coefficient.When to When rate of change Δ ε/Δ t of the dielectric coefficient of processed material is more than or equal to first rate threshold value, it is current that module 230 occurs for radio frequency Operating power reduction by 35%, meanwhile, in entire defrosting workflow, when the load impedance Z of module 230 occurs for radio frequency2With it is defeated Impedance Z out1Difference less than the first impedance threshold or be greater than the second impedance threshold when, load compensation module 260 pass through motor tune The impedance magnitude of compensating unit is saved, and then adjusts the load impedance Z that module 230 occurs for radio frequency2, make radio frequency that module 230 occur Load impedance Z2With output impedance Z1Difference be always more than equal to the first impedance threshold and be less than or equal to the second impedance threshold.When to When rate of change Δ ε/Δ t of the dielectric coefficient of processed material is less than or equal to the second rate-valve value, power supply module 142 stops power supply, Radio frequency occurs module 230, detection module 250 and load compensation module 260 and stops working, and buzzer is started to work, and timer is opened Beginning timing.If the time that object to be processed does not take out is less than preset time threshold, the temperature in defrosting chamber 214 is remained unchanged, directly When taking out object to be processed out of defrosting chamber 214 to user, buzzer stops working, and runs the former refrigerant sequence of refrigerator 10;If The time that object to be processed does not take out is more than or equal to preset time threshold, and timer is reset, and buzzer stops working, the system of refrigerator 10 Cooling system is that freezing compartment 120 provides cooling capacity.
So far, although those skilled in the art will appreciate that present invention has been shown and described in detail herein multiple shows Example property embodiment still without departing from the spirit and scope of the present invention, still can according to the present disclosure directly Determine or deduce out many other variations or modifications consistent with the principles of the invention.Therefore, the scope of the present invention is understood that and recognizes It is set to and covers all such other variations or modifications.

Claims (10)

1. a kind of refrigerator, the case including defining the refrigerator room and freezing compartment that are sequentially distributed along the vertical direction of the refrigerator Body and thawing apparatus are respectively arranged with a vertical beam in the refrigerator room and freezing compartment, by the refrigerator room and cold Freeze compartment and is divided into two compartments in left and right respectively;Wherein the thawing apparatus includes:
Cylinder inside defines the defrosting chamber with forward opening, and the defrosting chamber is for placing object to be processed;
Device door body is set at the forward opening of the defrosting chamber, for being opened and closed the defrosting chamber;
Module occurs for radio frequency, is configured to generate radiofrequency signal;With
Electric pole plate and lower electrode plate, horizontally are arranged at respectively at the roof and bottom wall of the defrosting chamber, and respectively with institute It states radio frequency and module electrical connection occurs, the rf wave of corresponding frequencies is generated in the defrosting chamber according to the radiofrequency signal, And the indoor object to be processed of the defrosting chamber that thaws;And
The thawing apparatus is set in the freezing compartment.
2. refrigerator according to claim 1, wherein
The back plate of the cylinder offers device air inlet, and the rear wall of the back plate of the cylinder and the freezing compartment there are Gap, so that the indoor air of the freezer enters to the defrosting chamber via described device air inlet;And
The side plate of the both lateral sides of the cylinder offers device air outlet, and the side plate of the both lateral sides of the cylinder with it is described There are gaps for the side wall of the both lateral sides of freezing compartment, so that the indoor gas of defrosting chamber is expelled to via device air outlet The freezing compartment.
3. refrigerator according to claim 2, wherein
The rear wall of the cylinder and the side plate of both lateral sides and the rear wall of corresponding freezing compartment and the side wall of both lateral sides away from From for 2~3mm.
4. refrigerator according to claim 2, wherein
The refrigerator is wind cooling refrigerator;
The freezing compartment includes air duct cover board, and the sandwiched formation of the liner rear wall of the air duct cover board and the freezing compartment freezes Air duct, and freezing air inlet is offered on the air duct cover board, to provide cooling capacity for the freezing compartment;And
The compartment of left and right two of the freezing compartment defines multiple accommodation spaces respectively, and the freezing air inlet is set to described In the accommodation space of the top of the left side compartment of freezing compartment;
The thawing apparatus is set in the accommodation space of the top, in order to which the freezing air duct is the thawing apparatus Cooling capacity is provided.
5. refrigerator according to claim 4, wherein
Described device air inlet is in the freezing air inlet in the projection on the thickness direction of the air duct cover board, in order to The freezing air duct provides cooling capacity for the thawing apparatus.
6. refrigerator according to claim 1, the refrigerator further includes for being opened and closed the refrigerator room and freezer respectively The refrigeration door body and freezing door body of the compartment of left and right two of room, wherein
Any refrigeration door body is provided with the defrosting switch started or stopped for controlling thaw routine, described in order to adjust Thaw switch;And the radio frequency occurs module and is configured that
When the defrosting, which switchs, opens, start to work;
When the defrosting, which switchs, closes, stop working.
7. refrigerator according to claim 6, wherein the thawing apparatus further include:
Infrared sensor is set on the inner wall of the defrosting chamber, with sense whether be placed in the defrosting chamber it is described Object to be processed.
8. refrigerator according to claim 7, wherein the refrigerator is configured that
When the defrosting, which switchs, opens, stop providing cooling capacity for the freezing compartment;
When the object to be processed takes out out of described defrosting chamber, the former refrigerant sequence of the refrigerator is run;
After the completion of the object to be processed thaws, the time that do not take out out of described defrosting chamber is more than or equal to a predetermined time threshold When value, cooling capacity is provided for the freezing compartment.
9. refrigerator according to claim 1, further includes:
Detection module is configured to detection and connects the incidence wave signal that the electrical wiring of module and the electric pole plate occurs for the radio frequency And reflection wave signal, and according to the voltage and current of the incidence wave signal and the voltage and current of the reflection wave signal, The rate of change of the dielectric coefficient of the object to be processed is calculated, to judge the defrosting progress of the object to be processed.
10. refrigerator according to claim 9 is configured that wherein module occurs for the radio frequency
When the rate of change of the dielectric coefficient of the object to be processed is more than or equal to first rate threshold value, operating power is reduced 30%~40%, to prevent the object to be processed from excessively being thawed;And/or
When the rate of change of the dielectric coefficient of the object to be processed drops below or equal to the second rate-valve value, stop working.
CN201710419000.9A 2017-06-06 2017-06-06 Refrigerator with a door Active CN109000401B (en)

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