CN109990563A - Wind cooling refrigerator and its control method - Google Patents
Wind cooling refrigerator and its control method Download PDFInfo
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- CN109990563A CN109990563A CN201711484938.5A CN201711484938A CN109990563A CN 109990563 A CN109990563 A CN 109990563A CN 201711484938 A CN201711484938 A CN 201711484938A CN 109990563 A CN109990563 A CN 109990563A
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- air inlet
- chamber
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- air
- radio frequency
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D29/00—Arrangement or mounting of control or safety devices
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- Combustion & Propulsion (AREA)
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- Mechanical Engineering (AREA)
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- General Engineering & Computer Science (AREA)
- Electric Ovens (AREA)
- Freezing, Cooling And Drying Of Foods (AREA)
- Constitution Of High-Frequency Heating (AREA)
Abstract
The present invention provides a kind of wind cooling refrigerators.The wind cooling refrigerator includes the cabinet for defining at least one storage room, the compartment supply air duct being respectively arranged at least one storage room and the thawing apparatus for being set to a storage room.Thawing apparatus includes the cylinder for defining defrosting chamber, the radio frequency generation module for generating radiofrequency signal and the radio-frequency antenna for generating rf wave in defrosting chamber according to radiofrequency signal.Wherein compartment supply air duct has the compartment air inlet for being storage room conveying cooling air and the device air inlet for conveying cooling air for thawing apparatus.Cylinder has the chamber air inlet of the cooling air blown out received from device air inlet.And each device air inlet be provided with can the controllably gas flow path between its corresponding device air inlet of on-off and chamber air inlet device inlet air door.The present invention may make that being placed in the indoor article of defrosting chamber is quickly obtained cooling capacity, improves the utilization rate of storage space in wind cooling refrigerator.
Description
Technical field
The present invention relates to food defrosting fields, more particularly to a kind of wind cooling refrigerator and its controlling party with defrosting function
Method.
Background technique
During freezing, the quality of food is kept food, when user has edible or process requirements, then is led to
It crosses thawing apparatus frozen food thaws.In the prior art, for convenience of the freezing of food and defrosting, thawing apparatus is arranged in wind
In cold refrigerator, however, when user does not use thawing apparatus thawed foodstuff, cooling capacity outside thawing apparatus cannot quickly even cannot
It is transferred in defrosting chamber, causes the waste of storage space in wind cooling refrigerator.Comprehensively consider, needs one kind to have in design
Defrosting function and the wind cooling refrigerator that fast-refrigerating can be realized in defrosting chamber.
Summary of the invention
One purpose of first aspect present invention is to provide for a kind of having defrosting function and can be in defrosting chamber quickly
The wind cooling refrigerator of refrigeration.
One of first aspect present invention is further objective is that will prevent object to be processed from excessively being thawed.
One purpose of second aspect of the present invention is to provide for a kind of control method of wind cooling refrigerator.
Particularly, according to the first aspect of the invention, a kind of wind cooling refrigerator is provided, including defines at least one storing
It the cabinet of compartment, the compartment supply air duct being respectively arranged at least one described storage room and is set to described in one
The thawing apparatus of storage room, the thawing apparatus include the cylinder for defining defrosting chamber, for generating penetrating for radiofrequency signal
The raw module that takes place frequently and the radio-frequency antenna for generating rf wave in the defrosting chamber according to the radiofrequency signal, wherein
The compartment supply air duct has for the compartment air inlet for storage room conveying cooling air and is used for
At least one device air inlet of cooling air is conveyed for the thawing apparatus;
The cylinder has at least one chamber air inlet, is configured to respectively received from least one described device air inlet
The cooling air of blowout;And
Each described device air inlet is provided with device inlet air door, and being configured to can controllably its corresponding dress of on-off
Set the gas flow path between air inlet and chamber air inlet.
Optionally, described device inlet air door is configured that
When module, which occurs, for the radio frequency is in off working state, opening state can be controllably switched to;
When radio frequency generation module is in running order, closed state is switched to.
Optionally, the wind cooling refrigerator further include:
Refrigeration switch, for receiving defrosting chamber refrigeration instruction;And described device inlet air door is further configured to
When the refrigeration, which switchs, to be opened, opening state can be controllably switched to;
When the refrigeration, which switchs, closes, closed state is switched to.
Optionally, described device inlet air door is further configured to switch its opening and closing according to the indoor temperature of defrosting chamber
State;
When the indoor temperature of defrosting chamber is more than or equal to a preset temperature threshold, described device inlet air door is switched to
Opening state;
When the indoor temperature of defrosting chamber is less than the preset temperature threshold, described device inlet air door switches to pass
Closed state.
Optionally, the thawing apparatus further include:
Detection module, is configured to detect the incidence wave signal of the radio-frequency antenna and reflection wave signal, and according to it is described enter
The voltage and current of the voltage and current of ejected wave signal and the reflection wave signal calculates the dielectric coefficient of object to be processed
Rate of change;And the radio frequency occurs module and is configured that
When the rate of change of the dielectric coefficient of object to be processed is more than or equal to first rate threshold value, operating power is reduced
30%~40%, to prevent object to be processed from excessively being thawed;And/or
When the rate of change of the dielectric coefficient of object to be processed drops below or equal to the second rate-valve value, stop working.
According to the second aspect of the invention, a kind of control method of wind cooling refrigerator is provided, the wind cooling refrigerator includes extremely
A few storage room, the compartment supply air duct and thawing apparatus being respectively arranged at least one described storage room, institute
Stating thawing apparatus includes that module and according to described occurs for the cylinder for defining defrosting chamber, the radio frequency for generating radiofrequency signal
Radiofrequency signal generates the radio-frequency antenna of rf wave in the defrosting chamber, and the cylinder has at least one chamber air inlet,
And the compartment supply air duct has compartment air inlet and at least one device to chamber air inlet conveying cooling air
Air inlet, each described device air inlet is provided with can be between on-off described device air inlet and the chamber air inlet
The device inlet air door of gas flow path, wherein the control method includes:
Judge that the radio frequency occurs whether module is in off working state;
If so, described device inlet air door switches to opening state;
If it is not, described device inlet air door switches to closed state.
Optionally, the wind cooling refrigerator further includes switching for receiving the refrigeration of defrosting chamber refrigeration instruction, wherein described
Device inlet air door switches to before opening state further include:
Judge whether the refrigeration switch is opened;
If so, described device inlet air door switches to opening state;
If it is not, described device inlet air door switches to closed state.
Optionally, described device inlet air door switches to before opening state further include:
Judge whether the indoor temperature of defrosting chamber is more than or equal to a preset temperature threshold;
If so, described device inlet air door switches to opening state;
If it is not, described device inlet air door switches to closed state.
Optionally, the thawing apparatus further includes the incidence wave signal and reflection wave signal for detecting the radio-frequency antenna
Detection module, wherein the control method further include:
Obtain the rf wave signal and reflection wave signal;
According to the voltage and current of the incidence wave signal and the voltage and current of the reflection wave signal, calculate to
The rate of change of the dielectric coefficient of processed material;
Judge whether the rate of change of the dielectric coefficient of object to be processed is more than or equal to first rate threshold value;
If so, the operating power that module occurs for the radio frequency reduces by 30%~40%.
Optionally, the thawing apparatus further includes the incidence wave signal and reflection wave signal for detecting the radio-frequency antenna
Detection module, wherein the control method further include:
Obtain the rf wave signal and reflection wave signal;
According to the voltage and current of the incidence wave signal and the voltage and current of the reflection wave signal, calculate to
The rate of change of the dielectric coefficient of processed material;
Judge whether the rate of change of the dielectric coefficient of object to be processed drops below or equal to the second rate-valve value;
If so, module from service occurs for the radio frequency.
The present invention conveys the device air inlet of cooling air by opening up on air duct cover board for defrosting chamber, and is thawing
The chamber air inlet for receiving the cooling air blown out from device air inlet is opened up on the cylinder of device, be may make and is placed in defrosting chamber
Indoor article is quickly obtained cooling capacity, improves the utilization rate of storage space in wind cooling refrigerator, and improves user experience.
Further, the present invention by detection radio-frequency antenna incidence wave signal and reflection wave signal, be computed obtain to
The rate of change of the dielectric coefficient of processed material occupies little space and at low cost to judge the defrosting progress of object to be processed, especially suitable
For the thawing apparatus in wind cooling refrigerator.Before making the present invention, those skilled in the art are it is believed that work as the temperature of object to be processed
When higher (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 be by mistake
It decomposes and freezes.However actual conditions are really not so, usual radio frequency defrosting power is larger, 100W is greater than, when the sheet of object to be processed
When body temperature is higher, object to be processed is easily excessively thawed.Present inventor creatively recognizes, when object to be processed
Temperature it is higher when, by radio frequency occur module operating power reduce by 30%~40%, object quilt to be processed can be effectively prevented
Excessively thaw.
Further, whether the present invention judges to thaw and complete by the rate of change of the dielectric coefficient of object to be processed, compares
Whether completed in judging to thaw by sensing the temperature of object to be processed in the prior art, it is more accurate to judge, can further prevent
Only object to be processed is excessively thawed, and test shows the object to be processed to be thawed by thawing apparatus of the invention, is thawed when completing
Temperature is generally -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 cross sectional views of thawing apparatus according to an embodiment of the invention;
Fig. 2 is the rate of change curve graph of the dielectric coefficient of object to be processed according to an embodiment of the invention;
Fig. 3 is the schematic diagram of drawer in Fig. 1;
Fig. 4 is the schematic explosive view of drawer in Fig. 3;
Fig. 5 is the schematic cross sectional views of refrigerator according to an embodiment of the invention;
Fig. 6 is the show in schematic partial sections of refrigerator in Fig. 5;
Fig. 7 is the schematic diagram of thawing apparatus in Fig. 6 according to an embodiment of the invention;
Fig. 8 is the schematic diagram of thawing apparatus in Fig. 6 in accordance with another embodiment of the present invention;
Fig. 9 is the schematic cross sectional views of refrigerator in accordance with another embodiment of the present invention;
Figure 10 is the schematic cross sectional views of the refrigerator of another embodiment according to the present invention;
Figure 11 is the diagrammatic cross-sectional view of the refrigerator of further embodiment according to the present invention;
Figure 12 is the schematic diagram of thawing apparatus in Figure 11;
Figure 13 is the control method flow chart of defrosting chamber refrigeration according to an embodiment of the invention;
Figure 14 is the flow chart of unfreezing control method according to an embodiment of the invention.
Specific embodiment
Fig. 1 is the schematic cross sectional views of thawing apparatus 100 according to an embodiment of the invention.Referring to Fig. 1, thawing apparatus
100 may include cylinder 110, device door body, radio frequency generation module 160 and radio-frequency antenna 130.Cylinder 110 may include top side plate,
Bottom side plate, back plate and two opposite lateral side plates, in can define the defrosting chamber 111 with forward opening, solve
Freeze chamber 111 for placing object to be processed.Device door body may be disposed at the forward opening of defrosting chamber 111, be used to open or
Close defrosting chamber 111.Device door body can be installed together by proper method and cylinder 110, for example, L.H.flapped door, R.H.flapped door,
Upward-acting door or sliding door.Radio frequency generation module 160 can be configured to generation radiofrequency signal and (refer generally to frequency in 300KHz~300GHz
Radiofrequency signal).Radio-frequency antenna 130 can by along thawing apparatus 100 transverse direction or front-rear direction be set side by side two it is flat
Board-like symmetrical dipole composition, and be fixed at the inner wall of defrosting chamber 111.Two symmetrical dipoles can pass through coaxial feeder and radio frequency
Module 160 occurs to be electrically connected, is generated in defrosting chamber 111 accordingly so that the radiofrequency signal that module 160 generates occurs according to radio frequency
The rf wave of parameter, and the object to be processed being placed in defrosting chamber 111 that thaws.In the present invention, the production of module 160 occurs for radio frequency
Raw radiofrequency signal is preferably a preset fixed frequency within the scope of 40.48~40.68MHz.It can be energy that module 160, which occurs, for radio frequency
The solid state power source of radiofrequency signal is enough generated, which can be precisely controlled by chip, realize frequency and/power tune
Section.Radio-frequency antenna 130 can be horizontally disposed at the bottom wall of defrosting chamber 111, be avoided because the setting of radio-frequency antenna 130 is being thawed
The roof of chamber 111 and the thickness for increasing the top side plate of cylinder 110, and then improve the aesthetics of thawing apparatus 100.
In some embodiments, thawing apparatus 100 may also include detection module 140.Detection module 140 can be configured to detect
The incidence wave signal and reflection wave signal of radio-frequency antenna 130, and believed according to the voltage and current of incidence wave signal and back wave
Number voltage and current, calculate radio frequency occur module 160 load impedance.In the present invention, detection module 140 can be penetrated from connection
The raw module 160 that takes place frequently and the incidence wave signal and reflection wave signal that radio-frequency antenna 130 is obtained at the coaxial feeder of transmitting antenna,
Incidence wave signal and reflection wave signal can be obtained directly from transmitting antenna.The calculation formula of load impedance is as follows:
SWR=Z2/Z1 (1)
Z1=U1/I1=R1+jX1 (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 160 occurs for connection radio frequency to those skilled in the art
With the impedance of the coaxial feeder of transmitting antenna, load impedance is the impedance of object to be processed).
Thawing apparatus 100 may also include load compensation module 180.Load compensation module 180 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 160 be object to be processed impedance and compensating unit impedance and.Motor, which can be configured to controllably change, to be turned
Dynamic direction increases or reduces the impedance of compensating unit, and then increases or reduces the load impedance Z that module 160 occurs for radio frequency2, and
Make radio frequency that the load impedance Z of module 160 occur2With output impedance Z1Difference (i.e. load impedance Z2Subtract output impedance Z1It obtains
Numerical value) it is more than or equal to one first impedance threshold and is less than or equal to one second impedance threshold, and the first impedance threshold is less than the second resistance
Anti- threshold value, to improve the defrosting efficiency of object to be processed.In some preferred embodiments, the first impedance threshold is output impedance Z1
- 6~-4%, the second impedance threshold be output impedance Z14~6%.It is further preferred that the first impedance threshold is output resistance
Anti- Z1- 5%, the second impedance threshold be output impedance Z15%.In other words, load compensation module 180 can be configured to make to penetrate
The load impedance Z for the raw module 160 that takes place frequently2With output impedance Z1Absolute value of the difference, output is always less than in entire course of defrosting
Impedance Z15%, may be, for example, output impedance Z11%, 3% or 5%.
Detection module 140 can be configured to the load impedance Z that module 160 further occurs according to radio frequency2, calculate object to be processed
Dielectric coefficient rate of change, to judge the defrosting progress of object to be processed.The calculation formula of the dielectric coefficient of object to be processed is such as
Under:
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 that radio-frequency antenna 130 and 111 roof of defrosting chamber are constituted
The capacitor of capacitor;ε is the dielectric coefficient of object to be processed;K is dielectric constant;D is the thickness of radio-frequency antenna 130;S is one right
Claim the area of oscillator.
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. 2 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. 2, in some preferred embodiments
In, module 160, 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 160, 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 the lesser thawing apparatus 100 of size.The incidence wave that the present invention passes through detection radio-frequency antenna 130
Signal and reflection wave signal are computed the dielectric coefficient for obtaining object to be processed, occupy little space and at low cost, especially suitable for solution
Freeze device 100.The present invention makes radio frequency that the load impedance of module 160 and the difference of output impedance occur by load compensation module 180
Within 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 to be processed
The defrosting efficiency of object.
Further, the present invention calculates the rate of change of the dielectric coefficient of object to be processed by detection module 140, 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 160 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 100 of the invention, the temperature thawed when completing
It generally -4~-2 DEG C of degree, can avoid thawing when object to be processed is meat and generating watery blood.
In some embodiments, thawing apparatus 100 may also include the switch of the defrosting for controlling thaw routine start and stop.Radio frequency
Module 160 occurs to be configured to start to work when the switch that thaws is opened;When the switch that thaws is closed, stop working.It was thawing
Cheng Zhong, user can terminate thaw routine by closing defrosting switch at any time.The switch that thaws may be configured as when thawing completion certainly
It is dynamic to switch to closed state.Thawing apparatus 100 is also provided with buzzer, for prompting user's object to be processed to thaw completion.
In some embodiments of the invention, cylinder 110 can be made of conductive metal.Detection module 140 may be disposed at
In defrosting chamber 111.Thawing apparatus 100 further includes baffle 150.Baffle 150 may be configured as and the inner wall of defrosting chamber 111 conduction
Connection, and the shielding chamber that rf wave can be prevented to enter is surrounded with the inner wall of defrosting chamber 111.Detection module 140, load compensation
Module 180 may be provided in shielding cavity room, can be effectively prevented from the rf wave of the generation of radio-frequency antenna 130 to detection module 140 and
Load compensation module 180 interferes, and improves incidence wave signal and reflection wave signal and load that detection module 140 detects
Compensating module 180 adjusts the accuracy that the load impedance of module 160 occurs for radio frequency, and then improves the defrosting for judging object to be processed
The accuracy of progress ensure that the Thawing Rate of object to be processed.
Fig. 3 is the schematic diagram of drawer 120 in Fig. 1;Fig. 4 is the schematic explosive view of drawer 120 in Fig. 3.Referring to
Fig. 3 and Fig. 4, thawing apparatus 100 may also include drawer 120.Further, drawer 120 may include bottom plate, front circumferential direction side plate
1211, rear portion circumferential direction side plate and two drawer bodies 121 that laterally circumferential side plate surrounds, for carrying object to be processed.Especially
Ground, front circumferential direction side plate 1211 may be configured as to cooperate with the peripheral region of the forward opening of defrosting chamber 111, using as device gate
Body is opened and closed defrosting chamber 111.The distance between lower surface and the upper surface of radio-frequency antenna 130 of bottom plate can be 8~12mm, such as
8mm, 10mm or 12mm generate friction with radio-frequency antenna 130 to avoid bottom plate in the draw process of drawer 120.Front is circumferential
The forward upper of side plate 1211 can offer the groove 1212 of the transverse direction extension along thawing apparatus 100, in order to user's pumping
Draw drawer 120.The present invention directly passes through the front circumferential direction side plate 1211 and the cooperation opening and closing defrosting chamber of cylinder 110 of drawer body 121
Room 111, compared with the prior art in drive end bearing bracket be separately provided with drawer body 121, not only increase user experience and defrosting
The aesthetics of device 100, and be integrally formed, reduce assembly process, reduce production cost, improves production efficiency.
In some currently preferred embodiments of the present invention, drawer body 121 can be made of ambroin, be existed with reducing rf wave
Electromagnetic consumable at drawer body 121.Drawer 120 may also include Metal decorative part 122, conductive sheet metal component 123 and elastic conduction
Ring 124.Metal decorative part 122 may be configured as the front surface for being attached to front circumferential direction side plate 1211 and upper and lower end face, to improve
The aesthetics of thawing apparatus 100.Conductive sheet metal component 123 may be configured as two transverse end surfaces for being attached to front circumferential direction side plate 1211
The portion back surface cooperated with the peripheral region of the forward opening with defrosting chamber 111, with Metal decorative part 122 and metal cylinder
110 cooperatively form electromagnetic circuit, reduce magnetic dispersion amount of the thawing apparatus 100 at the forward opening of defrosting chamber 111, reduce
Harmfulness of the rf wave to user.Elastic conduction ring 124 may be provided at the rear surface of conductive sheet metal component 123, so that it is preceding
Portion's circumferential direction side plate 1211 is squeezed and deformed when closing defrosting chamber 111, is fitted closely with cylinder 110, is improved thawing apparatus
100 leakproofness, to be further reduced magnetic dispersion amount of the thawing apparatus 100 at the forward opening of defrosting chamber 111.
Baffle 150 may include horizontally extending horizontal segment 151 and extend straight up from the front end of horizontal segment 151
Vertical section 152, and be set as and the roof of defrosting chamber 111, rear wall and two transverse inner walls are conductively connected.Thawing apparatus
100 may also include protective switch, when being configured to open front circumferential direction side plate 1211 in course of defrosting as user, occur to radio frequency
Module 160 sends electric signal, makes radio frequency that module 160 occur and stops working, endangers user health to avoid rf wave, improve and thaw
The safety of device 100.Protective switch can be touching formula mechanical switch.In some preferred embodiments, protective switch is settable
In the front surface of the vertical section 152 of baffle 150, and when front peripheral side plate 1211 is closed, protective switch can be with drawer body
121 rear portion circumferential direction side plane contact, switching are in an open state.When user open front circumferential direction side plate 1211 when, protective switch with
The rear portion circumferential direction side plate of drawer body 121 separates, and protective switch switching is in off state, and module 160 occurs to radio frequency and sends
The electric signal to stop working makes radio frequency that module 160 occur and stops working.In some alternate embodiments, protective switch can be set
Set the peripheral region in the forward opening of defrosting chamber 111.
Detection module 140 and load compensation module 180 can be fixed on horizontal segment 151.In some preferred realities of the invention
It applies in example, thawing apparatus 100 may also include conductive connection plates 153.Conductive connection plates 153 may be disposed at detection module 140, load
Between compensating module 180 and the horizontal segment 151 of baffle 150, respectively with detection module 140, load compensation module 180 and baffle
150 horizontal segment 151 is conductively connected, and is grounded conductive connection plates 153, can be eliminated and be accumulated on cylinder 110 and baffle 150
Charge further prevents the interference of detection module 140 and load compensation module 180 by rf wave, and improves thawing apparatus
100 safety.In some embodiments of the invention, thawing apparatus 100 may also include can transmission telecommunications number conductive post
154.The both ends of conductive post 154 can be respectively set to be conductively connected with the horizontal segment 151 of baffle 150 and radio-frequency antenna 130, will
The incidence wave signal and reflection wave signal of radio-frequency antenna 130 are transmitted to the horizontal segment 151 of baffle 150, and detection module 140 can pass through
The electric signal on baffle 150 is detected to obtain the incidence wave signal and reflection wave signal of radio-frequency antenna 130, is not only convenient for the dress that thaws
100 assembly is set, more accurate incidence wave signal and reflection wave signal can be also got.
In some currently preferred embodiments of the present invention, module 160, which occurs, for radio frequency may be disposed at the outside of cylinder 110, so as to
Module 160 occurs in radio frequency to radiate.The outer wall of the back plate of cylinder 110 can have and radio-frequency antenna 130, detection module 140, load
The cylinder Wiring port 113 of the electrical connections such as compensating module 180, protective switch, radio frequency generation module 160, which can have, to be connected electrically
Radio-frequency connections port.Cylinder Wiring port 113 and radio-frequency connections port can be electrically connected by electrical wiring 170, the electrical wiring 170
Two wire terminals being electrically connected including conducting wire and respectively with the both ends of conducting wire, two wire terminals can respectively with cylinder terminals
Mouth 113 and the electrical connection of radio-frequency connections port, in order to the installation and storage of thawing apparatus 100.
A kind of refrigerator 200 can also be provided in thawing apparatus 100 based on aforementioned any embodiment, the present invention.Fig. 5 is according to this
The schematic cross sectional views of the refrigerator 200 of invention one embodiment.Referring to Fig. 5, refrigerator 200 generally may include defining compression
The cabinet 210 of machine room 214 and at least one storage room, the compartment door for picking and placing mouth for being opened and closed each storage room respectively
Body, refrigeration system, and it is set to the thawing apparatus 100 of a storage room.In the illustrated embodiment, thawing apparatus 100
Quantity is one.Refrigerator 200 is that (knownly, wind cooling refrigerator refers in refrigeration system those skilled in the art wind cooling refrigerator
Evaporator 234 is arranged in air duct cover board 240 and the sandwiched compartment supply air duct of storage room inner wall, and utilizes Air Blast fan
2131 force the refrigerator of the air and 234 heat convection of evaporator in storage room), and there are three between storing for the restriction of cabinet 210
Room, respectively refrigerator room 211, alternating temperature compartment 212 and freezing compartment 213, and be respectively used to opening and closing refrigerator room 211, become
Warm compartment 212 and the refrigeration door body 221 of freezing compartment 213, alternating temperature door body 222 and freezing door body 223, thawing apparatus 100 are arranged
In freezing compartment 213.
In addition, also illustratable be, knownly, refrigeration system includes compressor and compressor to those skilled in the art
The condenser of outlet, capillary, the evaporator 234 that cooling capacity is provided for storage room and it is connected on condenser and capillary
Between solenoid electric valve.Refrigerator room 211 refers to the storage room that the preservation temperature to food materials is 0~+8 DEG C;Freezing compartment
213 refer to the storage room that the preservation temperature to food materials is -20~-15 DEG C;Alternating temperature compartment 212 refers to can (example to a wide range
As adjusting range can be at 4 DEG C or more, and it is adjustable to 0 DEG C or more or 0 DEG C or less) change the storage room of its preservation temperature, generally
Its preservation temperature may span across refrigeration, soft freezing (generally -4~0 DEG C) and cryogenic temperature, and preferably -16~+4 DEG C.
In some currently preferred embodiments of the present invention, radio frequency generation module 160 may be disposed at the outer of the foaming layer of cabinet 210
Side in order to which the heat dissipation maintenance of module 160 occurs for radio frequency, and can increase the dischargeable capacity of defrosting chamber 111.Connector drum terminals
Mouth 113 and the conducting wire of radio-frequency connections port can be preset in the foaming layer of cabinet 210, and two wire terminals can be individually fixed in
It is provided with the inner wall of the storage room of thawing apparatus 100 and the outside of cabinet 210.Cylinder 110 may be configured as can be along refrigerator 200
Front-rear direction slides and is electrically connected cylinder Wiring port 113 with the wire terminal for being fixed on storage room inner wall, in order to solve
Freeze the installation of device 100.Thawing apparatus 100 may also include for the radio-frequency power supply that module 160 is powered to occur for radio frequency.Radio frequency electrical
Source may be configured as being electrically connected with the power supply circuit of refrigerator 200, be radio frequency to obtain electric energy from the power supply circuit of refrigerator 200
Module 160 is powered.
In some further preferred embodiments of the invention, cylinder 110 can have from its back plate extend back to
A few guide pad 112, the rear wall for being provided with the storage room of thawing apparatus 100 accordingly offer guide groove, guide pad 112
It may be configured as that guide groove can be slid into along the front-rear direction of refrigerator 200, and make cylinder Wiring port 113 and be set to the storage room
The wire terminal of rear wall docks, and in order to the installation of cylinder 110, and Wiring port and wire terminal is avoided to damage.Wherein it is oriented to
Size of the block 112 on the front-rear direction of refrigerator 200 can be greater than the wire terminal for being fixed on storage room rear wall in refrigerator 200
Size on front-rear direction.In the present invention, the quantity of guide pad 112 can for one, it is two or more more.It leads
Quantity to block 112 is preferably two, so that the guiding of guide pad 112 accuracy with higher.The bottom surface of guide pad 112
May be configured as it is coplanar with the bottom surface of cylinder 110, in order to which guide pad 112 is docked with guide groove.The rear surface of guide pad 112 can be set
It is set to the equal arc transition in side with guide pad 112 perpendicular to the rear surface to connect, to avoid in guide pad 112 and guide groove pair
Storage room inner wall is damaged when connecing.
Referring to Fig. 5, in some embodiments of the invention, module 160, which occurs, for radio frequency be may be disposed in compressor room 214.
The wire terminal that module 160 is electrically connected, which occurs, with radio frequency can be fixed at the inner wall of compressor room 214 or extend to compressor room
In 214, in order to which the electrical connection of module 160 occurs for radio frequency.Refrigerator 200 may include drip tray.Drip tray is mounted on refrigerator 200
On chassis, and it is formed with the cavity of upward opening, for collecting and evaporating the condensed water in refrigerator 200.Compressor, which is mounted on, to be connect
On the bottom wall of water pond cavity.It is also provided in the transverse direction of drip tray on the chassis for being mounted on refrigerator 200 side by side with it
Radio frequency bracket 2144, radio frequency occur module 160 be fixed on the radio frequency bracket 2144.Two cross sides of compressor room 214
Wall offers cooling vent respectively, in order to which heat is expelled to compressor room 214 from compressor room 214 with air flowing
Outside.
Refrigerator 200 may also include radiating panel 2145.Radiating panel 2145 may be configured as that 160 heat of module occurs with radio frequency even
It connects, to increase the heat dissipation area that module 160 occurs for radio frequency, improves radiating efficiency.Specifically, radiating panel 2145 may include level
The substrate of extension and multiple fins that the upper surface of self-reference substrate is parallel and compartment of terrain upwardly extends.Substrate may be configured as sending out with radio frequency
The upper surface of raw module 160 is thermally connected.Preferably by thermal paste or heat pipe structure and radio frequency module 160 occurs for radiating panel 2145
It is thermally connected, the rate of radiating panel 2145 is transferred to improve heat from radio frequency generation module 160, so that improving radio frequency occurs mould
The radiating efficiency of block 160.In the present invention, thermal paste can be heat conductive silica gel.
In some preferred embodiments, module 160, which occurs, for radio frequency to change naturally under the flowing of the air in compressor room 214
Heat.Multiple fins of radiating panel 2145 may be configured as extending along the transverse direction of refrigerator 200, in order to which air is along multiple fins
Between gap flowing.In some further preferred embodiments, at least one radiation air may be provided in compressor room 214
Machine.Cooling fan can be configured to that air-flow is promoted to flow along the transverse direction of refrigerator 200, to accelerate the air in compressor room 214
Flowing velocity, and then improve radio frequency and 160 radiating efficiency of module occurs.Cooling fan is preferably provided at radio frequency and 160 He of module occurs
Between compressor, the heat that module 160 and compressor generation occurs to avoid radio frequency accumulates in the side in compressor room 214,
It forms security risk and reduces the service life that module 160 and compressor occur for radio frequency.Due to when module 160, which occurs, for radio frequency works
The heat generated when the heat of generation is far fewer than compressor operating, cooling fan can be configured to promote the sky outside compressor room 214
Gas enters in compressor room 214 from the cooling vent that module 160 occurs for neighbouring radio frequency, and from the heat dissipation ventilation of neighbouring compressor
Mouth is discharged to outside compressor room 214, and module 160 occurs because long-time is in higher temperatures environment to avoid radio frequency, reduces use
Service life.It is further preferred that cooling fan may be configured as that any one in module 160 occurs and is in work when compressor and radio frequency
It starts to work when state, is 214 ventilation and heat of compressor room.
In other preferred embodiments, the top that module 160 occurs for radio frequency may be provided at least one cooling fan,
The air flowing for promoting radio frequency that 160 top of module occurs when module 160 is in running order occurs for radio frequency, to improve radio frequency
160 radiating efficiency of module.The air supply direction of cooling fan may be configured as it is parallel with the extending direction of multiple fins, to reduce radio frequency
The resistance of the air flowing of 160 top of module occurs.Multiple fins may be configured as extending along the front-rear direction of refrigerator 200, so that
The heat exchange of air and multiple fins in compressor room 214 is more abundant.Cooling fan may be disposed at the interior of compressor room 214
Side, i.e. cooling fan are located at the front side of radiating panel 2145, and the heat that module 160 generates occurs to avoid radio frequency and accumulates in compression
In machine room 214.Cooling fan is preferably that its projection on the perpendicular perpendicular to fin was completely near substrate week
In the spatial dimension of the sandwiched formation of extrorse two fins, i.e. projection of the cooling fan on the perpendicular perpendicular to fin
It is completely between two fins of spaced furthest, to reduce the occupied space of cooling fan while guaranteeing radiating efficiency.
In the present invention, cooling fan can be centrifugal blower.The quantity of cooling fan can for one, two or more.Radiation air
Machine may be configured as being fixedly connected with the substrate of radiating panel 2145, in order to the installation and removal of cooling fan.
In other embodiments of the invention, the outer container of cabinet 210 can define the accommodation groove being recessed inwardly, radio frequency hair
In the raw settable accommodation groove of module 160, in order to which the heat dissipation maintenance of module 160 occurs for radio frequency.Module 160 occurs with radio frequency to be electrically connected
The wire terminal connect can be fixed at the inner wall of accommodation groove or extend in accommodation groove, in order to which the electricity of module 160 occurs for radio frequency
Connection.It may also be arranged in accommodation groove for the radio-frequency power supply that module 160 is powered to occur for radio frequency, in order to the dimension of radio-frequency power supply
It repairs.Cabinet 210 can also have the accommodating cover board for the backward opening for being removably disposed in accommodation groove, and mould occurs to avoid radio frequency
The exposed damage of block 160, and improve the aesthetics of refrigerator 200.Accommodation groove can be located at the roof of cabinet 210, due to usual refrigerator
200 top have no occluder is more advantageous to the heat dissipation that module 160 occurs for radio frequency.Accommodation groove may be alternatively located at the rear wall of refrigerator 200
Convenient for inspection and maintenance radio frequency module 160 occurs for place.In some preferred embodiments, radio frequency occur module 160 may be configured as with
It accommodates cover board to be thermally connected, without improving the heat dissipation effect that module 160 occurs for radio frequency by the air indirect heat transfer in accommodation groove
Rate.Radio frequency occurs to be also provided with thermal paste between module 160 and accommodating cover board, and module 160 occurs to improve heat from radio frequency
It is transmitted to the rate of accommodating cover board.
Particularly, the refrigeration system of refrigerator 200 of the invention can also provide during non-defrost for defrosting chamber 111
Article in cooling capacity, fast refrigeration or freeze-thaw chamber 111.Specifically:
In some embodiments, be provided with the storage room of thawing apparatus 100 compartment air-supply passage can have for for
The storage room conveys the compartment air inlet of cooling air and at least one dress for conveying cooling air for defrosting chamber 111
Set air inlet.Cylinder 110 can have at least one chamber air inlet, be configured to receive respectively and blow from least one device air inlet
Cooling air out.In the present invention, the quantity of device air inlet can for one, two or more.Compartment supply air duct
It may be provided with device inlet air door 241, gas flow path that can controllably between on-off system air inlet and chamber air inlet.Cylinder
110 can also offer chamber return air inlet 114, and the gas in defrosting chamber 111 can be discharged to defrosting chamber from chamber return air inlet 114
Outside 111.Chamber air inlet and chamber return air inlet 114 can be the ventilation hole of the plate body of multiple cylinders 110 where it, with
Reduce the external magnetic dispersion amount of thawing apparatus 100.Ventilation hole be preferably in square circle, with guarantee gas enter defrosting chamber 111 or
The rate being discharged from defrosting chamber 111.
Fig. 6 is the show in schematic partial sections of refrigerator 200 in Fig. 5;Fig. 7 is in Fig. 6 according to an embodiment of the invention
The schematic diagram of thawing apparatus 100;Fig. 8 is the signal of thawing apparatus 100 in Fig. 6 in accordance with another embodiment of the present invention
Property structure chart.Referring to Fig. 6 to Fig. 8, in some preferred embodiments, at least one device air inlet can be provided with storage room
On air duct cover board 240, and device inlet air door 241 is set to device air inlet.At least one chamber air inlet can be provided with
On side plate in conjunction with the back plate of cylinder 110.Thawing apparatus 100 may also include be connected at least one chamber air inlet and device into
At least one device air intake passage 115 in air port, so that the cooling air in compartment supply air duct is successively passed through from device air inlet
It is transported in defrosting chamber 111 by device air intake passage 115 and chamber air inlet.Chamber return air inlet 114 can be opened in cylinder 110
Back plate, and there are gap between the rear wall (i.e. air duct cover board 240) of the corresponding storage room of chamber return air inlet 114, with
It is discharged to the gas in defrosting chamber 111 in the corresponding storage room of thawing apparatus 100 via chamber return air inlet 114.Chamber
Return air inlet 114 is preferably located at the top of back plate, i.e. the top that is located at the horizontal central plane of back plate of chamber return air inlet 114, with
Keep cooling gas and the air heat-exchange in defrosting chamber 111 more abundant.Chamber air inlet extend in transverse direction it is vertical in
Entreat plane with the forward opening of cylinder 110 at a distance from be size of the cylinder 110 on depth direction 1/5~1/3, such as 1/5,
1/4 or 1/3, so that cooling air and the air heat-exchange in defrosting chamber 111 are more abundant, improve the temperature of defrosting chamber 111
Uniformity.The rear end face of device air intake passage 115 may be provided with sealing strip 117, to enter the wind in device air intake passage 115 and device
It when mouth docking, is fitted closely with air duct cover board 240, the air quantity being delivered in defrosting chamber 111 is avoided to reduce.Device air intake passage
115 may include along the horizontal-extending air duct main body of front-rear direction (i.e. the depth direction of storage room) of wind cooling refrigerator 200 and oneself
The flange that the posterior edges of air duct main body extend towards the direction of the central axial line away from air duct main body.Air duct main body may be configured as it
Lower surface is attached to the outer surface of cylinder 110 in advance, in order to the installation of thawing apparatus 100.Cylinder 110 can have along air-cooled ice
The installation card slot that the front-rear direction of case 200 extends, the mountable bottom surface in installation card slot of air duct main body, in order to device air inlet
The installation in channel 115 positions.Sealing strip 117 may be provided at the rear end face of flange, to increase sealing strip 117 and air duct cover board 240
Contact area, further increase leakproofness.In some embodiments, the quantity of chamber air inlet can be one.One chamber
Air inlet can be provided with the top side plate of cylinder 110.Horizontal centre axis of the chamber air inlet on the front-rear direction of refrigerator 200
It is preferably in vertical central plane of the defrosting chamber 111 on 200 front-rear direction of refrigerator, to improve the temperature of defrosting chamber 111
Spend uniformity.Referring to Fig. 8, in further embodiments, the quantity of chamber air inlet can be two.Two chambers air inlet can divide
It is not provided with two lateral side plates of cylinder 110.Horizontal centre axis of the two chambers air inlet on the front-rear direction of refrigerator 200
Line is preferably placed in 1/2~2/3 altitude range of defrosting chamber 111, such as 1/2 height, 3/5 height or 2/3 height, to improve
The temperature uniformity of defrosting chamber 111.
Fig. 9 is the schematic cross sectional views of refrigerator 200 in accordance with another embodiment of the present invention;Figure 10 is according to the present invention again
The schematic cross sectional views of the refrigerator 200 of one embodiment.Referring to Fig. 9 and Figure 10, in other preferred embodiments, compartment air-supply
Air duct may include for the compartment air-supply main road 217 to storage room conveying cooling air and for conveying to defrosting chamber 111
The device of cooling air enters the wind branch 218.Device air inlet branch 218 is set as being connected to compartment air-supply main road 217, and is arranged and exists
The top of cylinder 110.Device air inlet can be provided on device air inlet branch 218.Device inlet air door 241 may be provided at compartment
Main road 217 of blowing enters the wind the junction of branch 218 with device.Chamber air inlet can be provided on the top side plate of cylinder 110, dress
The cooling air set in air inlet branch 218 can be blown out from device air inlet, and enter defrosting chamber 111 via chamber air inlet
It is interior.The projection of device air inlet in the horizontal plane is preferably in chamber air inlet, to rise to the effect of the refrigeration of defrosting chamber 111
Rate.The partial devices air inlet branch 218 of apparatus adjacent air inlet may be configured as the tapered extension of gas flow direction in it, to mention
High gas flow rates reduce loss of refrigeration capacity.Chamber return air inlet 114 can be opened in the back plate of cylinder 110, and chamber return air inlet
There are gaps between 114 and the rear wall (i.e. air duct cover board 240) of the storage room where it, so that the gas in defrosting chamber 111
Body is discharged in storage room via chamber return air inlet 114.Chamber return air inlet 114 is preferably located at the top of back plate, i.e. chamber
Return air inlet 114 is located at the top of the horizontal central plane of back plate, so that the air heat-exchange in cooling gas and defrosting chamber 111 is more
Add sufficiently.The vertical central plane that chamber air inlet extends in transverse direction is cylinder at a distance from the forward opening of cylinder 110
The 1/5~1/3 of 110 size on depth direction, such as 1/5,1/4 or 1/3, so that in cooling air and defrosting chamber 111
Air heat-exchange it is more abundant, improve defrosting chamber 111 temperature uniformity.In some embodiments, device enters the wind branch 218
It can be preset in the foaming layer of the upside of storage room, so that defrosting chamber 111 can have the biggish useful space.Referring to figure
10, in further embodiments, device air inlet branch 218 can be attached at the upper wall surface of storage room, in order to which device enters the wind branch
The installation on road 218.It is stayed between the upper surface of cylinder 110 and the lower surface of the upper wall surface of storage room or device air inlet branch 218
There are the gap of 8~12mm, such as 8mm, 10mm or 12mm, in order to the installation of thawing apparatus 100.
Figure 11 is the diagrammatic cross-sectional view of the refrigerator 200 of further embodiment according to the present invention;Figure 12 is solved in Figure 11
Freeze the schematic diagram of device 100.Referring to Figure 11 and Figure 12, in other preferred embodiment, chamber air inlet is opened in
The back plate of cylinder 110.Chamber return air inlet 114 is opened in the either lateral side plate of cylinder 110.Chamber air inlet is preferably arranged
The edge of laterally any side of the back plate of cylinder 110, and chamber return air inlet 114 is set to the transverse direction far from chamber air inlet
On side plate, to improve the temperature uniformity of defrosting chamber 111.Chamber air inlet and chamber return air inlet 114 may be provided at cylinder
The top of 110 horizontal central plane, to further increase the temperature uniformity of defrosting chamber 111.Compartment air inlet and device
Air inlet can be provided on air duct cover board 240, wherein can be via chamber air inlet from the cooling air that device air inlet is blown out
Enter defrosting chamber 111.Device inlet air door 241 may be provided at device air inlet.Refrigerator 200 may also include to be sent with compartment
The device return air channel 219 of wind air duct connection, and device return air channel 219 has device return air inlet, from 114 row of chamber return air inlet
Gas out can return in compartment supply air duct via device return air inlet.Device return air channel 219 is preferably preset in cabinet 210
Foaming layer in so that defrosting chamber 111 has biggish effective storing volume, and improve the aesthetics of refrigerator 200.Some
In further preferred embodiment, thawing apparatus 100 may also include two air guide structures 116 for defining air-guiding aisle.Two
Air guide structure 116 may be configured as extending outwardly from the outboard peripheries of chamber air inlet and chamber return air inlet 114 respectively, and respectively
It is docked with device air inlet and device return air inlet, to rise to the rate of the refrigeration of defrosting chamber 111.Specifically, each wind-guiding knot
Structure 116 may each comprise wind-guiding section and Butt Section.Wind-guiding section may be configured as extending outwardly from the outboard peripheries of chamber air inlet.It is right
Connecing section may be configured as extending outwardly from the rear end of wind-guiding section towards the direction of the central axial line away from wind-guiding section, and the rear end of Butt Section
Face is set as docking with device air inlet or device return air inlet, with improve air guide structure 116 and device air inlet peripheral region or
The contact area of the peripheral region of device return air inlet improves the airtightness at docking.The rear end face of Butt Section is also provided with sealing
Item 117, so that air guide structure 116 is fitted closely with the peripheral region of device air inlet or the peripheral region of device return air inlet.Connecting cavity
The Butt Section of the air guide structure 116 of room return air inlet 114 may be configured as it is obliquely inwardly extending from front to back, in order to cylinder 110
Installation, and further increase the airtightness at docking.In other alternate embodiments, from the cooling of device air inlet blowout
Gas can also enter defrosting chamber 111 indirectly by chamber air inlet via storage room, be discharged from chamber air inlet
Gas can return in compartment air-supply passage via storage room indirectly by device air inlet and device return air channel 219.
In some embodiments of the invention, refrigeration system can be configured to when radio frequency generation module 160 is in running order
When, cooling capacity cannot be provided to defrosting chamber 111, avoid the rate for reducing the object to be processed that thaws;It is in when module 160 occurs for radio frequency
When off working state, just cooling capacity can be provided to defrosting chamber 111.Thawing apparatus 100 further includes temperature sensor, for detecting solution
Freeze the air themperature in chamber 111.Refrigeration system can be further configured for according to the air themperature in defrosting chamber 111 controllably
Cooling capacity is provided to defrosting chamber 111.When the temperature in defrosting chamber 111 is more than or equal to a preset temperature threshold and radio frequency generation mould
When block 160 is in off working state, start as 111 cooling supply of defrosting chamber;When the temperature in defrosting chamber 111 is less than preset temperature
When threshold value or in running order radio frequency generation module 160, stop providing cooling capacity for defrosting chamber 111.Preset temperature threshold can
It is arranged in freezing compartment 213 for the set temperature of the storage room where thawing apparatus 100, such as thawing apparatus 100, presets
Temperature threshold can be -20~-15 DEG C.
Refrigerator 200 may also include the refrigeration switch of 111 refrigeration instruction of defrosting chamber for receiving user's input.Work as refrigeration
In the open state, refrigeration system just controllably can provide cooling capacity to defrosting chamber 111 to switch;When refrigeration switch is in closing
When state, refrigeration system can not provide cooling capacity to defrosting chamber 111.User can be opened and closed refrigeration switch according to storage requirement, for example,
When having enough space preservation articles in storage room, user can close refrigeration switch, only be used to solve by defrosting chamber 111
Freeze food, avoids the waste of cooling capacity, reduce 200 energy consumption of refrigerator;When the article for needing preservation is excessive, user can thaw
Opening refrigeration switch after the completion makes refrigeration system provide cooling capacity to defrosting chamber 111, and the article for needing preservation is put into defrosting chamber
111 preservation of room avoids the storage space in refrigerator 200 from wasting, improves user experience.Refrigeration switch may be provided at refrigeration door body
On 221, in order to which user adjusts refrigeration switch.Refrigeration switch may be additionally configured to automatically switch to pass when the switch that thaws is opened
Closed state.
Figure 13 is the control method flow chart that defrosting chamber 111 according to an embodiment of the invention freezes.Referring to Figure 13,
The control method that defrosting chamber 111 of the invention freezes can include:
Step S1302: judging whether refrigeration switch is opened, if so, executing step S1304;If it is not, executing step S1302.
Step S1304: judge whether module 160 occurs for radio frequency in running order, if so, executing step S1302;If
It is no, execute step S1306.
Step S1306: judging whether the temperature of defrosting chamber 111 is more than or equal to preset temperature threshold, if so, executing step
S1308;If it is not, executing step S1302.
Step S1308: refrigeration system starts to provide cooling capacity for defrosting chamber 111.
Figure 14 is the flow chart of unfreezing control method according to an embodiment of the invention.Referring to Figure 14, solution of the invention
Freezing control method may include steps of:
Step S1402: judge to thaw to switch and whether open, if so, executing step S1404;If it is not, executing step S1402.
Step S1404: judging whether protective switch is opened (judging whether front circumferential direction side plate 1211 closes), if so,
Execute step S1406;If it is not, executing step S1404.
Step S1406: radio frequency occurs module 160 and generates radiofrequency signal, and detection module 140 detects entering for radio-frequency antenna 130
Ejected wave signal and reflection wave signal.Operating procedure S1408.
Step S1408: 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 S1410: 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 S1412;If it is not, executing step S1408.
Step S1412: the operating power that module 160 occurs for radio frequency reduces by 30%~40%.In this step, radio frequency occurs
The operating power of module 160 can reduce by 35%.
Step S1414: 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 S1416: 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 S1418;If it is not, executing step S1414.
Step S1418: radio frequency occurs module 160 and stops working, and the switch that thaws is resetted and (closed).
It may also include the steps of: after step S1406
Step S1420: obtaining the voltage and current of incidence wave signal and the voltage and current of reflection wave signal, calculating are penetrated
The load impedance Z2 for the raw module 160 that takes place frequently.
Step S1422: judge that the difference of the load impedance Z2 and output impedance Z1 of module 160 occur for radio frequency whether less than the
One impedance threshold, if so, executing step S1424;If it is not, executing step S1426.
Step S1424: the motor work of load compensation module 180 increases the impedance of compensating unit.Return step S1420.
Step S1426: judge that radio frequency occurs the difference of the load impedance Z2 and output impedance Z1 of module 160 and whether is greater than the
Two impedance thresholds, if so, executing step S1428;If it is not, executing step S1420.
Step S1428: the motor work of load compensation module 180 reduces the impedance of compensating unit.Return step S1420.
The workflow of the refrigerator 200 of one embodiment of the invention can include: when user opens thaw switch and front week
When closing to side plate 1211, radio frequency occurs module 160 and generates radiofrequency signal, and detection module 140 and load compensation module 180 start
Work.Detection module 140 detects the incidence wave signal and reflection wave signal of radio-frequency antenna 130, and calculates RF transmitter
Rate of change Δ ε/Δ t of load impedance Z2 and dielectric coefficient.When rate of change Δ ε/Δ t of the dielectric coefficient of object to be processed is big
When being equal to first rate threshold value, the operating power reduction by 35% of module 160 occurs for radio frequency, meanwhile, in entire defrosting workflow
Cheng Zhong, when the difference of the load impedance Z2 and output impedance Z1 of module 160 occur for radio frequency less than the first impedance threshold or greater than second
When impedance threshold, load compensation module 180 adjusts the impedance magnitude of compensating unit by motor, and then adjusts radio frequency and module occurs
160 load impedance Z2, the difference for making radio frequency that the load impedance Z2 and output impedance Z1 of module 160 occur are always more than equal to first
Impedance threshold and be less than or equal to the second preset threshold.When rate of change Δ ε/Δ t of the dielectric coefficient of object to be processed is less than or equal to
When the second rate-valve value, radio frequency occurs module 160 and stops working, and the switch that thaws automatically switches to be in off state.
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 wind cooling refrigerator, including defining the cabinet of at least one storage room, being respectively arranged at least one described storage
Indoor compartment supply air duct and it is set to the thawing apparatus of a storage room between object, the thawing apparatus includes
Define the cylinder of defrosting chamber, module occurs for the radio frequency for generating radiofrequency signal and according to the radiofrequency signal described
The radio-frequency antenna of rf wave is generated in defrosting chamber, wherein
The compartment supply air duct has compartment air inlet for being storage room conveying cooling air and for for institute
State at least one device air inlet of thawing apparatus conveying cooling air;
The cylinder has at least one chamber air inlet, is configured to blow out received from least one described device air inlet respectively
Cooling air;And
Each described device air inlet is provided with device inlet air door, be configured to can controllably its corresponding device of on-off into
Gas flow path between air port and chamber air inlet.
2. wind cooling refrigerator according to claim 1, wherein described device inlet air door is configured that
When module, which occurs, for the radio frequency is in off working state, opening state can be controllably switched to;
When radio frequency generation module is in running order, closed state is switched to.
3. wind cooling refrigerator according to claim 2, wherein the wind cooling refrigerator further include:
Refrigeration switch, for receiving defrosting chamber refrigeration instruction;And described device inlet air door is further configured to
When the refrigeration, which switchs, to be opened, opening state can be controllably switched to;
When the refrigeration, which switchs, closes, closed state is switched to.
4. wind cooling refrigerator according to claim 2 or 3, wherein
Described device inlet air door is further configured to switch its open and-shut mode according to the indoor temperature of defrosting chamber;
When the indoor temperature of defrosting chamber is more than or equal to a preset temperature threshold, described device inlet air door switches to opening
State;
When the indoor temperature of defrosting chamber is less than the preset temperature threshold, described device inlet air door switches to closing shape
State.
5. wind cooling refrigerator according to claim 1, wherein the thawing apparatus further include:
Detection module is configured to detect the incidence wave signal of the radio-frequency antenna and reflection wave signal, and according to the incidence wave
The voltage and current of the voltage and current of signal and the reflection wave signal calculates the variation of the dielectric coefficient of object to be processed
Rate;And the radio frequency occurs module and is configured that
When the rate of change of the dielectric coefficient of object to be processed is more than or equal to first rate threshold value, operating power reduction by 30%~
40%, to prevent object to be processed from excessively being thawed;And/or
When the rate of change of the dielectric coefficient of object to be processed drops below or equal to the second rate-valve value, stop working.
6. a kind of control method of wind cooling refrigerator, the wind cooling refrigerator include at least one storage room, be respectively arranged at it is described
Compartment supply air duct and thawing apparatus at least one storage room, the thawing apparatus include defining defrosting chamber
Cylinder, the radio frequency for generating radiofrequency signal occurs module and generated in the defrosting chamber according to the radiofrequency signal
The radio-frequency antenna of rf wave, the cylinder have at least one chamber air inlet, and the compartment supply air duct have compartment into
Air port and at least one device air inlet that cooling air is conveyed to the chamber air inlet, each described device air inlet are equal
Be provided with can gas flow path between on-off described device air inlet and the chamber air inlet device inlet air door, wherein institute
Stating control method includes:
Judge that the radio frequency occurs whether module is in off working state;
If so, described device inlet air door switches to opening state;
If it is not, described device inlet air door switches to closed state.
7. control method according to claim 6, the wind cooling refrigerator further includes for receiving defrosting chamber refrigeration instruction
Refrigeration switch, wherein described device inlet air door switches to before opening state further include:
Judge whether the refrigeration switch is opened;
If so, described device inlet air door switches to opening state;
If it is not, described device inlet air door switches to closed state.
8. control method according to claim 7, wherein described device inlet air door is also wrapped before switching to opening state
It includes:
Judge whether the indoor temperature of defrosting chamber is more than or equal to a preset temperature threshold;
If so, described device inlet air door switches to opening state;
If it is not, described device inlet air door switches to closed state.
9. control method according to claim 6, the thawing apparatus further includes for detecting entering for the radio-frequency antenna
The detection module of ejected wave signal and reflection wave signal, wherein the control method further include:
Obtain the rf wave signal and reflection wave signal;
According to the voltage and current of the incidence wave signal and the voltage and current of the reflection wave signal, calculate to be processed
The rate of change of the dielectric coefficient of object;
Judge whether the rate of change of the dielectric coefficient of object to be processed is more than or equal to first rate threshold value;
If so, the operating power that module occurs for the radio frequency reduces by 30%~40%.
10. control method according to claim 6, the thawing apparatus further includes for detecting entering for the radio-frequency antenna
The detection module of ejected wave signal and reflection wave signal, wherein the control method further include:
Obtain the rf wave signal and reflection wave signal;
According to the voltage and current of the incidence wave signal and the voltage and current of the reflection wave signal, calculate to be processed
The rate of change of the dielectric coefficient of object;
Judge whether the rate of change of the dielectric coefficient of object to be processed drops below or equal to the second rate-valve value;
If so, module from service occurs for the radio frequency.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201711484938.5A CN109990563B (en) | 2017-12-29 | 2017-12-29 | Air-cooled refrigerator and control method thereof |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201711484938.5A CN109990563B (en) | 2017-12-29 | 2017-12-29 | Air-cooled refrigerator and control method thereof |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN109990563A true CN109990563A (en) | 2019-07-09 |
| CN109990563B CN109990563B (en) | 2021-01-01 |
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| CN201711484938.5A Active CN109990563B (en) | 2017-12-29 | 2017-12-29 | Air-cooled refrigerator and control method thereof |
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN113915860A (en) * | 2020-12-02 | 2022-01-11 | 海信(山东)冰箱有限公司 | Refrigerator and control method thereof |
| WO2024002090A1 (en) * | 2022-06-30 | 2024-01-04 | 青岛海尔电冰箱有限公司 | Refrigeration and freezing apparatus |
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| CN107024059A (en) * | 2017-05-12 | 2017-08-08 | 海信(山东)冰箱有限公司 | A kind of refrigerator and unfreezing control method |
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| CN1355401A (en) * | 2000-11-30 | 2002-06-26 | Lg电子株式会社 | Method for controlling defreezing of microwave oven |
| US20100126191A1 (en) * | 2008-11-25 | 2010-05-27 | Samsung Electronics Co., Ltd. | Cooling system and method of controlling the same |
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| CN113915860A (en) * | 2020-12-02 | 2022-01-11 | 海信(山东)冰箱有限公司 | Refrigerator and control method thereof |
| CN113915859A (en) * | 2020-12-02 | 2022-01-11 | 海信(山东)冰箱有限公司 | Refrigerator and control method thereof |
| CN113915859B (en) * | 2020-12-02 | 2023-05-12 | 海信冰箱有限公司 | Refrigerator and control method thereof |
| WO2024002090A1 (en) * | 2022-06-30 | 2024-01-04 | 青岛海尔电冰箱有限公司 | Refrigeration and freezing apparatus |
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| CN109990563B (en) | 2021-01-01 |
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