CN109869970A - Refrigerator heat-exchange device and controlling method for refrigerator - Google Patents
Refrigerator heat-exchange device and controlling method for refrigerator Download PDFInfo
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- CN109869970A CN109869970A CN201910160096.0A CN201910160096A CN109869970A CN 109869970 A CN109869970 A CN 109869970A CN 201910160096 A CN201910160096 A CN 201910160096A CN 109869970 A CN109869970 A CN 109869970A
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Abstract
The invention discloses a kind of refrigerator heat-exchange device and controlling method for refrigerator.Wherein, this method comprises: multiple thermally conductive spaces, are arranged in the different refrigeration spaces of refrigerator, for carrying out heat exchange with refrigeration space by the heat-conducting medium in thermally conductive space;Adjustment mechanism is connected with multiple thermally conductive spaces, for by the thermally conductive space allocation in current refrigeration space in other refrigeration spaces into refrigerator in addition to current refrigeration space.The present invention solves the technical issues of not can avoid the waste of freezer compartment of refrigerator cooling capacity.
Description
Technical field
The present invention relates to refrigerator fields, in particular to a kind of refrigerator heat-exchange device and controlling method for refrigerator.
Background technique
The refrigeration of general cold compartment of refrigerator or temperature-changing chamber is all the air door by opening corresponding compartment, and operation freezing blower will
The cold air of freezer evaporator blows to refrigerating chamber or temperature-changing chamber.This refrigerator is when freezing chamber has reached shutdown temperature point because cold
Hiding room or temperature-changing chamber do not reach shutdown temperature point compressor and are also running, and freezing chamber freezes always, and freezing chamber cooling capacity is caused to waste.Separately
Outside, this freezer compressor open, machine stop times it is more, as long as which compartment has refrigeration demand, compressor will be opened.
Therefore, the cooling capacity waste of this refrigerator how is reduced or avoided and reduces compression under the premise of guaranteeing refrigeration effect
The opening of machine, machine stop times, become urgent problem to be solved.
It is above-mentioned not can avoid freezer compartment of refrigerator cooling capacity waste aiming at the problem that, currently no effective solution has been proposed.
Summary of the invention
The embodiment of the invention provides a kind of refrigerator heat-exchange device and controlling method for refrigerator, at least to solve not can avoid
The technical issues of freezer compartment of refrigerator cooling capacity wastes.
According to an aspect of an embodiment of the present invention, a kind of refrigerator heat-exchange device is provided, comprising: multiple thermally conductive skies
Between, it is arranged in the different refrigeration spaces of refrigerator, for passing through the heat-conducting medium and the refrigeration space in the thermally conductive space
Carry out heat exchange;Adjustment mechanism is connected with multiple thermally conductive spaces, for the thermally conductive space allocation of target is empty to specified refrigeration
In.
Further, multiple thermally conductive spaces include at least: the first thermally conductive space and the second thermally conductive space;It is multiple described
Refrigeration space includes at least: the first refrigeration space and the second refrigeration space, wherein first refrigeration space and second system
The cold preset cryogenic temperature in space is different;Wherein, the described first thermally conductive space is arranged in first refrigeration space, institute
The second thermally conductive space is stated to be arranged in second refrigeration space;The adjustment mechanism is used for the described first thermally conductive space tune
Second refrigeration space, by the described second thermally conductive space allocation to first refrigeration space.
Further, described device further include: heat-conducting medium storage unit is connected to from the different thermally conductive spaces, is used for
Store the heat-conducting medium.
Further, described device further include: control valve is arranged in the thermally conductive space and the heat-conducting medium storage unit
Between, it is flowed between the thermally conductive space and the heat-conducting medium storage unit for controlling the heat-conducting medium.
Further, the heat-conducting medium includes: water.
According to another aspect of an embodiment of the present invention, a kind of controlling method for refrigerator is additionally provided, comprising: detect the more of refrigerator
The state parameter of a refrigeration space and multiple thermally conductive spaces, wherein the different refrigeration is arranged in multiple thermally conductive spaces
In space, for carrying out heat exchange with the refrigeration space by the heat-conducting medium in the thermally conductive space;According to the state
Parameter, judging whether to need will be in target thermally conductive space allocation to specified refrigeration space;It is needing the thermally conductive space of the target
In the case where adjusting to the specified refrigeration space, the thermally conductive space of the target is moved in the specified refrigeration space.
Further, according to the state parameter, judge whether to need that the thermally conductive space allocation of target is empty to specified refrigeration
In include: detect the thermally conductive temperature in the thermally conductive space of target whether to reach predetermined adjustment temperature, wherein it is predetermined to adjust temperature
To specify the temperature for needing the heat-conducting medium in the thermally conductive space to reach in refrigeration space;Reach pre- in the thermally conductive temperature to set the tone
In the case where whole temperature, determine that needs will be in the thermally conductive space allocation of the target to the specified refrigeration space.
Further, the refrigerator further include: the heat-conducting medium storage unit, by control valve from it is different described thermally conductive
Space connection, for storing the heat-conducting medium.
Further, after multiple refrigeration spaces of detection refrigerator and the state parameter in multiple thermally conductive spaces, the side
Method further include: detect whether the environment temperature in the refrigeration space is lower than preset cryogenic temperature;In the environment temperature
For degree lower than in the case where the cryogenic temperature, whether the compressor for detecting the refrigerator is in open state;In the environment temperature
Degree is lower than the cryogenic temperature, and in the case that the compressor is in the open state, opens the control valve to described
The heat-conducting medium is injected in thermally conductive space.
Further, in the case where the heat-conducting medium is water, the heat-conducting medium in the thermally conductive space of target
State is ice, after the thermally conductive space of the target is moved in the specified refrigeration space, the method also includes: it opens
The control valve controls the water melted in the thermally conductive space of the target and flows into the heat-conducting medium storage unit.
Further, multiple thermally conductive spaces include at least: the first thermally conductive space and the second thermally conductive space;It is multiple described
Refrigeration space includes at least: the first refrigeration space and the second refrigeration space, wherein first refrigeration space and second system
Preset cryogenic temperature is different in cold space, and the cryogenic temperature is used to control the unlatching of compressor.
Further, in the initial state, the described first thermally conductive space is arranged in first refrigeration space, and described the
Two thermally conductive spaces are arranged in second refrigeration space;In the feelings for needing to adjust the thermally conductive space in current refrigeration space
Other systems under condition, by the thermally conductive space allocation in current refrigeration space into the refrigerator in addition to current refrigeration space
It include: by the described first thermally conductive space allocation to second refrigeration space, by the described second thermally conductive space allocation in cold space
To first refrigeration space.
Further, the state parameter includes at least: the environment temperature of the refrigeration space, the freezer compressor
Working condition, the thermally conductive temperature in the thermally conductive space.
It in embodiments of the present invention, may include such as refrigerating chamber, freezing chamber and the multiple refrigeration spaces of temperature-changing chamber in refrigerator,
Thermally conductive space is set in each refrigeration space of refrigerator, the heat-conducting medium and refrigeration space progress heat in thermally conductive space can be passed through
Exchange makes the heat-conducting medium in thermally conductive space store cooling capacity extra in refrigerator freezing room, then will store in freezing chamber again cold
In the thermally conductive space allocation to the refrigerating chamber of refrigerator of amount, the cooling capacity stored in thermally conductive space is discharged in refrigerating chamber, has been reached pair
The cooling capacity of freezing chamber does the purpose further used, so that the technical effect for avoiding freezer compartment of refrigerator cooling capacity from wasting is realized, into
And solves the technical issues of not can avoid the waste of freezer compartment of refrigerator cooling capacity.
Detailed description of the invention
The drawings described herein are used to provide a further understanding of the present invention, constitutes part of this application, this hair
Bright illustrative embodiments and their description are used to explain the present invention, and are not constituted improper limitations of the present invention.In the accompanying drawings:
Fig. 1 is a kind of schematic diagram of refrigerator heat-exchange device according to an embodiment of the present invention;
Fig. 2 is a kind of schematic diagram of energy-saving refrigerator according to an embodiment of the present invention;
Fig. 3 is a kind of schematic diagram of energy-saving refrigerator control method according to an embodiment of the present invention;
Fig. 4 is a kind of flow chart of controlling method for refrigerator according to an embodiment of the present invention.
Specific embodiment
In order to enable those skilled in the art to better understand the solution of the present invention, below in conjunction in the embodiment of the present invention
Attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is only
The embodiment of a part of the invention, instead of all the embodiments.Based on the embodiments of the present invention, ordinary skill people
The model that the present invention protects all should belong in member's every other embodiment obtained without making creative work
It encloses.
It should be noted that description and claims of this specification and term " first " in above-mentioned attached drawing, "
Two " etc. be to be used to distinguish similar objects, without being used to describe a particular order or precedence order.It should be understood that using in this way
Data be interchangeable under appropriate circumstances, so as to the embodiment of the present invention described herein can in addition to illustrating herein or
Sequence other than those of description is implemented.In addition, term " includes " and " having " and their any deformation, it is intended that cover
Cover it is non-exclusive include, for example, the process, method, system, product or equipment for containing a series of steps or units are not necessarily limited to
Step or unit those of is clearly listed, but may include be not clearly listed or for these process, methods, product
Or other step or units that equipment is intrinsic.
Fig. 1 is a kind of schematic diagram of refrigerator heat-exchange device according to an embodiment of the present invention, as shown in Figure 1, the device packet
It includes:
Multiple thermally conductive spaces 11, are arranged in the different refrigeration spaces 13 of refrigerator, for passing through leading in thermally conductive space 11
Thermal medium and refrigeration space 13 carry out heat exchange;
Adjustment mechanism 15 is connected with multiple thermally conductive spaces 11, is used for the thermally conductive space allocation of target to specified refrigeration space
It is interior.
It in embodiments of the present invention, may include such as refrigerating chamber, freezing chamber and the multiple refrigeration spaces of temperature-changing chamber in refrigerator,
Thermally conductive space is set in each refrigeration space of refrigerator, the heat-conducting medium and refrigeration space progress heat in thermally conductive space can be passed through
Exchange makes the heat-conducting medium in thermally conductive space store cooling capacity extra in refrigerator freezing room, then will store in freezing chamber again cold
In the thermally conductive space allocation to the refrigerating chamber of refrigerator of amount, the cooling capacity stored in thermally conductive space is discharged in refrigerating chamber, has been reached pair
The cooling capacity of freezing chamber does the purpose further used, so that the technical effect for avoiding freezer compartment of refrigerator cooling capacity from wasting is realized, into
And solves the technical issues of not can avoid the waste of freezer compartment of refrigerator cooling capacity.
It should be noted that multiple thermally conductive spaces include: the thermally conductive space of target, multiple refrigeration spaces include: specified refrigeration
Space.
Optionally, refrigeration space includes freezing chamber, refrigerating chamber, temperature-changing chamber etc..
Optionally, the thermally conductive space of target is that initial setting up is refrigerating indoor thermally conductive space, and specifying refrigeration space is freezing
Room can store the cooling capacity of refrigerating chamber by the thermally conductive space of freezing chamber, then adjust the refrigerating chamber for storing cooling capacity to refrigeration
In room, the cooling capacity of storage is discharged in refrigerating chamber.
Optionally, thermally conductive space and adjustment mechanism can be set on the inner wall of refrigerator.
As a kind of optional embodiment, heat-conducting medium includes: water.
Optionally, the water in the thermally conductive space of target can be frozen into ice in refrigerator freezing room, then will have ice again
The thermally conductive space allocation of target is into cold compartment of refrigerator.
As a kind of optional embodiment, multiple thermally conductive spaces are included at least: the first thermally conductive space and the second thermally conductive space;
Multiple refrigeration spaces include at least: the first refrigeration space and the second refrigeration space, wherein the first refrigeration space and the second refrigeration are empty
Between preset cryogenic temperature it is different;Wherein, the first thermally conductive space is arranged in the first refrigeration space, and the second thermally conductive space is set
It sets in the second refrigeration space;Adjustment mechanism is used for by the first thermally conductive space allocation to the second refrigeration space, by the second thermally conductive sky
Between adjust to the first refrigeration space.
Optionally, the preset cryogenic temperature of the first refrigeration space is higher than the preset refrigeration temperature of the second refrigeration space
Degree, then the first refrigeration space is refrigerating chamber, and the second refrigeration space is freezing chamber, and then the first thermally conductive space is initial setting up cold
Indoor thermally conductive space is hidden, the second thermally conductive space is that initial setting up is freezing indoor thermally conductive space.
It optionally, can be by adjusting after the heat-conducting medium in the second thermally conductive space stores last cooling capacity in freezing chamber
Mechanism is by the second thermally conductive space allocation to refrigerating chamber, then will refrigerate in the indoor first thermally conductive space allocation to freezing chamber, quasi-
Extra cooling capacity in standby storage freezing chamber.
Optionally, the level height of the first refrigeration space is higher than the level height of the second refrigeration space;First thermally conductive space
Level height be higher than the second thermally conductive space level height.
As a kind of optional embodiment, device further include: heat-conducting medium storage unit is connected to from different thermally conductive spaces,
For storing heat-conducting medium.
As a kind of optional embodiment, device further include: control valve is arranged in thermally conductive space and heat-conducting medium storage unit
Between, it is flowed between thermally conductive space and heat-conducting medium storage unit for controlling heat-conducting medium.
Technical solution provided by the invention, heat-conducting medium storage unit are connected to from different thermally conductive spaces, can make thermally conductive Jie
Matter flows in heat-conducting medium storage unit and thermally conductive space.
Optionally, in the case where extra cooling capacity is not present in freezing chamber, heat-conducting medium is stored in heat-conducting medium storage unit,
And control valve is opened, heat-conducting medium is made to flow to freezing from heat-conducting medium storage unit there are in the case where extra cooling capacity in freezing chamber
In indoor thermally conductive space, cooling capacity extra in freezing chamber is stored.
Optionally, in the case that the heat-conducting medium in thermally conductive space is ice in freezing chamber, indoor thermally conductive space will be freezed
It is moved in refrigerating chamber, and opening controlling valve, the water of ice-out in thermally conductive space is made to flow into heat-conducting medium storage unit.
The present invention also provides a kind of preferred embodiment, the preferred embodiment provides a kind of energy-saving refrigerator.
Fig. 2 is a kind of schematic diagram of energy-saving refrigerator according to an embodiment of the present invention, as shown in Fig. 2, energy-saving refrigerator includes: cold
Hide room 21, freezing chamber 22, refrigerator inner wall 23, the first thermally conductive space 24, the second thermally conductive space 25, containment portion 26, rotary apparatus
Structure 27, water valve 28 and water valve 29.
It should be noted that heat-conducting medium storage unit can be containment portion shown in Fig. 2, adjustment mechanism can be Fig. 2
Shown in Rotatable mechanism, control valve can be water valve shown in Fig. 2.
Optionally, refrigerating chamber 21 is located at 22 top of freezing chamber, and containment portion 26 is arranged in the first thermally conductive space 24 and second
Between thermally conductive space 25, water valve 28 is connected to the first thermally conductive space and containment portion, and water valve 29 is connected to the second thermally conductive space and water storage
Part, the setting of Rotatable mechanism 27 is in the first thermally conductive space 24 and the second thermally conductive space 25, for rotating the first thermally conductive space 24
With the second thermally conductive space 25, change the position in the first thermally conductive space 24 and the second thermally conductive space 25, in the initial state, first leads
Heat space 24 is arranged in refrigerating chamber 21, and the second thermally conductive space 25 is arranged in freezing chamber 22.
Fig. 3 is a kind of schematic diagram of energy-saving refrigerator control method according to an embodiment of the present invention, as shown in figure 3, including such as
Lower step:
S1, refrigerator power on, heat water valve 28, shutoff valve 29, and the water of part in mechanism is allowed to be flowed into the containment portion 26 of mechanism
In, then execute step S2.
S2, judgement power on whether reached the t1 period, and t1=5 seconds here, if so, shutoff valve 28, then executes step
S3;Reach if not, returning to waiting for the time.
S3 obtains the temperature of refrigerating chamber 21 and freezing chamber 22 by reading temperature sensor value, then executes step S4.
S4, judges the temperature of freezing chamber 22 whether to have reached starting point temperature that (freezing chamber starting point temperature is by set temperature
It is obtained with the environment temperature synthesis detected, such as: set temperature is -18 degree, and environment temperature is 25 degree, at this time starting point temperature
It is set to -17 degree), if it is, needing out compressor mark, then execute step S6;If not, then executing step S5.
S5, judges the temperature of freezing chamber 22 whether to have reached shutdown temperature that (freezing chamber break point temperature is also by set temperature
It is obtained with the environment temperature synthesis detected, such as: set temperature is -18 degree, and environment temperature is 25 degree, at this time break point temperature
It is set to 18.5 degree), if so, then executing step S6;If not, then executing step S7.
S6, judge the temperature of refrigerating chamber 21 whether reach starting point temperature (refrigerating chamber starting point temperature be also by setting temperature
What degree and environment temperature determined), if it is, needing out compressor mark, then execute step S10;Otherwise step is directly executed
Rapid S10.
S7, judges whether the temperature of freezing chamber 22 reaches break point temperature T, here T=2 degree, and compressor is in booting
State starts if so, heat water valve 29, shutoff valve 28, move the water to flow into the second thermally conductive space 25 of 22 part of freezing chamber of mechanism
Ice making then executes step S8, no to then follow the steps S6.
S8, judges whether 29 opening time of water valve reaches t2, t2=5 seconds here, if so, shutoff valve 29, then executes
Step S9;It is no to then follow the steps S6.
S9, whether the temperature of water has reached T1 in the second thermally conductive space 25 in decision mechanism, here T1=-6 degree, if
It is to determine that the water in the second thermally conductive space 25 has frozen, mechanism is rotated into 180 degree, makes the have ice cube second thermally conductive space 25
In refrigerating chamber 21, strong refrigerating chamber 21 is equipped with ice cube mark, no to then follow the steps S6.
Whether S10, the temperature of the temperature and freezing chamber 22 that judge refrigerating chamber 21 are reached shutdown temperature point, if so,
Compressor mark is then needed out, step S11 is then executed;Otherwise step S11 is directly executed.
S11, judgement need out compressor mark whether set, if so, then execute step S12;Otherwise compression is executed
Organ then executes step S13.
S12, judges whether compressor has stopped enough t2 periods, t2=10 minutes here, if so, opening compressor, then
Execute step S13;Otherwise step S13 is directly executed.
S13, judge refrigerating chamber 21 have ice cube mark whether set, if so, shutoff valve 29, heat water valve 28, water is flowed into
The containment portion 26 of mechanism then executes step S14, no to then follow the steps S3.
S14, judges whether the temperature of refrigerating chamber 21 has been raised to starting point temperature by break point temperature, if so, Guan Shui
Valve 28, then water valve 28 is replaced as water valve 29, water valve 29 is replaced as water valve 28 (program processing), then executes step S3;Otherwise
Directly execute step S3.
Optionally, refrigerator inner wall Rotatable mechanism can be changed to other devices, such as this device is using ice making function
It can normally be made ice when energy, if there is no ice-needs, the extra cooling capacity of freezing chamber is used to make ice, the ice made is transferred to cold
It hides in room or temperature-changing chamber, water discharge or recycling after thawing.
Dry it is alternatively possible to increase a fan the ice cube (such as heat-conducting medium) in thermally conductive space, accelerate refrigerating chamber or
The cooling of temperature-changing chamber.
Optionally, in the case where there is temperature-changing chamber, similar approach can be used.
It should be noted that above-mentioned time parameter t1 and t2, temperature parameter T and T1 can be adjusted according to the actual situation.
Technical solution provided by the invention, by refrigerator inner wall Rotatable mechanism or other devices by extra cold of freezing chamber
Ice cube is transferred in refrigerating chamber for ice cube to be made by amount, and ice cube is promoted to accelerate to melt, for cooling down, can effectively energy conservation and
Guarantee refrigeration effect under the premise of reduce compressor open, machine stop times.
According to embodiments of the present invention, a kind of controlling method for refrigerator embodiment is provided, it should be noted that in the stream of attached drawing
The step of journey illustrates can execute in a computer system such as a set of computer executable instructions, although also, flowing
Logical order is shown in journey figure, but in some cases, it can be to be different from shown or described by sequence execution herein
The step of.
Fig. 4 is a kind of flow chart of controlling method for refrigerator according to an embodiment of the present invention, as shown in figure 4, this method includes
Following steps:
Step S402 detects multiple refrigeration spaces of refrigerator and the state parameter in multiple thermally conductive spaces, wherein multiple thermally conductive
Space is arranged in different refrigeration spaces, for carrying out heat exchange with refrigeration space by the heat-conducting medium in thermally conductive space;
Step S404, according to state parameter, judging whether to need will be in target thermally conductive space allocation to specified refrigeration space;
Step S406, it is in the case where needing in target thermally conductive space allocation to specified refrigeration space, target is thermally conductive
Space is moved in specified refrigeration space.
It in embodiments of the present invention, may include such as refrigerating chamber, freezing chamber and the multiple refrigeration spaces of temperature-changing chamber in refrigerator,
Thermally conductive space is set in each refrigeration space of refrigerator, the heat-conducting medium and refrigeration space progress heat in thermally conductive space can be passed through
Exchange, by detecting multiple refrigeration spaces of refrigerator and the state parameter in multiple thermally conductive spaces, and according to state parameter, judgement is
It is no to need in target thermally conductive space allocation to specified refrigeration space, and needing the thermally conductive space allocation of target to specified refrigeration
In the case where in space, the thermally conductive space of target is moved in specified refrigeration space, in the feelings that specified refrigeration space is refrigerating chamber
Under condition, the heat-conducting medium in thermally conductive space can be made to store cooling capacity extra in refrigerator freezing room, then again by freezing chamber memory
In the thermally conductive space allocation to the refrigerating chamber of refrigerator for storing up cooling capacity, the cooling capacity stored in thermally conductive space is discharged in refrigerating chamber, is reached
The purpose further used is done to the cooling capacity of freezing chamber, to realize the technology effect for avoiding freezer compartment of refrigerator cooling capacity from wasting
Fruit, and then solve the technical issues of not can avoid the waste of freezer compartment of refrigerator cooling capacity.
As a kind of optional embodiment, state parameter is included at least: the environment temperature of refrigeration space, freezer compressor
Working condition, the thermally conductive temperature in thermally conductive space.
As a kind of optional embodiment, according to state parameter, judge whether to need extremely to refer to the thermally conductive space allocation of target
Determine to include: to detect the thermally conductive temperature in the thermally conductive space of target whether to reach predetermined adjustment temperature in refrigeration space, wherein predetermined adjustment
Temperature is the temperature for needing the heat-conducting medium in thermally conductive space to reach in specified refrigeration space;Reach predetermined adjustment temperature in thermally conductive temperature
In the case where degree, determination needs will be in target thermally conductive space allocation to specified refrigeration space.
The above embodiment of the present invention, the case where the thermally conductive temperature for detecting the thermally conductive space of target reaches predetermined adjustment temperature
Under, it can will be in target thermally conductive space allocation to specified refrigeration space.
For example, specified refrigeration space is refrigerating chamber, the thermally conductive space of target is the corresponding thermally conductive space of freezing chamber, if target is led
The temperature of heat space has reached predetermined adjustment temperature, then by the thermally conductive space allocation to refrigerating chamber of target, by the thermally conductive space of target
Heat-conducting medium to refrigerating chamber carry out heat exchange.
As a kind of optional embodiment, refrigerator further include: heat-conducting medium storage unit, by control valve from it is different thermally conductive
Space connection, for storing heat-conducting medium.
As a kind of optional embodiment, in multiple refrigeration spaces of detection refrigerator and the state parameter in multiple thermally conductive spaces
Later, method further include: whether the environment temperature in detection refrigeration space is lower than preset cryogenic temperature;In environment temperature
In the case where lower than cryogenic temperature, whether the compressor for detecting refrigerator is in open state;It is lower than cryogenic temperature in environment temperature,
And in the case that compressor is in open state, opening controlling valve guide heat space filling heat-conductive medium.
Optionally, opening controlling valve guide heat space filling heat-conductive medium includes: section opening controlling valve to schedule,
Heat-conducting medium in heat-conducting medium storage unit is inputted in thermally conductive space, to control guide heat space note according to predetermined amount of time
The amount of the heat-conducting medium entered.
It should be noted that preset cryogenic temperature is minimum temperature needed for refrigeration space, if refrigeration space
Interior environment temperature is lower than preset cryogenic temperature, and compressor is in open state, then illustrates exist in refrigeration space
Excessive cooling capacity, then can thermally conductive space filling heat-conductive medium into refrigeration space, refrigeration space is stored by heat-conducting medium
In extra cooling capacity.
For example, in the case where the environment temperature of freezer compartment of refrigerator is lower than preset cryogenic temperature, into freezing chamber
Thermally conductive space filling heat-conductive medium, store extra cooling capacity in freezing chamber.
As a kind of optional embodiment, in the case where heat-conducting medium is water, heat-conducting medium in the thermally conductive space of target
State is ice, after the thermally conductive space of target is moved in specified refrigeration space, method further include: opening controlling valve, control
The water melted in the thermally conductive space of target flows into heat-conducting medium storage unit.
The above embodiment of the present invention, specified refrigeration space can be the refrigerating chamber of refrigerator, leading in the thermally conductive space of target
Thermal medium is ice, and target is thermally conductive be spatially located in refrigerating chamber in the case where, opening controlling valve flows into ice melting water and leads
Thermal medium storage unit.
Optionally, if the environment temperature in specified refrigeration space is higher than the turn-on temperature of compressor, illustrate present case
The ice cube in specified refrigeration space in thermally conductive space has melted down, can not provide cooling capacity for specified refrigeration space, then detect other
Whether the thermally conductive temperature in each thermally conductive space in refrigeration space reaches predetermined adjustment temperature, and thermally conductive temperature is reached predetermined adjustment
The thermally conductive space of temperature is adjusted as the thermally conductive space of target to specified refrigeration space.
As a kind of optional embodiment, multiple thermally conductive spaces are included at least: the first thermally conductive space and the second thermally conductive space;
Multiple refrigeration spaces include at least: the first refrigeration space and the second refrigeration space, wherein the first refrigeration space and the second refrigeration are empty
Interior preset cryogenic temperature is different, and cryogenic temperature is used to control the unlatching of compressor.
As a kind of optional embodiment, in the initial state, the first thermally conductive space is arranged in the first refrigeration space, the
Two thermally conductive spaces are arranged in the second refrigeration space;It, will in the case where needing to adjust the thermally conductive space in current refrigeration space
Thermally conductive space allocation in current refrigeration space include: in other refrigeration spaces into refrigerator in addition to current refrigeration space by
First thermally conductive space allocation to the second refrigeration space, by the second thermally conductive space allocation to the first refrigeration space.
The serial number of the above embodiments of the invention is only for description, does not represent the advantages or disadvantages of the embodiments.
In the above embodiment of the invention, it all emphasizes particularly on different fields to the description of each embodiment, does not have in some embodiment
The part of detailed description, reference can be made to the related descriptions of other embodiments.
In several embodiments provided herein, it should be understood that disclosed technology contents can pass through others
Mode is realized.Wherein, the apparatus embodiments described above are merely exemplary, such as the division of the unit, Ke Yiwei
A kind of logical function partition, there may be another division manner in actual implementation, for example, multiple units or components can combine or
Person is desirably integrated into another system, or some features can be ignored or not executed.Another point, shown or discussed is mutual
Between coupling, direct-coupling or communication connection can be through some interfaces, the INDIRECT COUPLING or communication link of unit or module
It connects, can be electrical or other forms.
The unit as illustrated by the separation member may or may not be physically separated, aobvious as unit
The component shown may or may not be physical unit, it can and it is in one place, or may be distributed over multiple
On unit.It can some or all of the units may be selected to achieve the purpose of the solution of this embodiment according to the actual needs.
It, can also be in addition, the functional units in various embodiments of the present invention may be integrated into one processing unit
It is that each unit physically exists alone, can also be integrated in one unit with two or more units.Above-mentioned integrated list
Member both can take the form of hardware realization, can also realize in the form of software functional units.
If the integrated unit is realized in the form of SFU software functional unit and sells or use as independent product
When, it can store in a computer readable storage medium.Based on this understanding, technical solution of the present invention is substantially
The all or part of the part that contributes to existing technology or the technical solution can be in the form of software products in other words
It embodies, which is stored in a storage medium, including some instructions are used so that a computer
Equipment (can for personal computer, server or network equipment etc.) execute each embodiment the method for the present invention whole or
Part steps.And storage medium above-mentioned includes: that USB flash disk, read-only memory (ROM, Read-Only Memory), arbitrary access are deposited
Reservoir (RAM, Random Access Memory), mobile hard disk, magnetic or disk etc. be various to can store program code
Medium.
The above is only a preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art
For member, various improvements and modifications may be made without departing from the principle of the present invention, these improvements and modifications are also answered
It is considered as protection scope of the present invention.
Claims (13)
1. a kind of refrigerator heat-exchange device characterized by comprising
Multiple thermally conductive spaces, are arranged in the different refrigeration spaces of refrigerator, for passing through the heat-conducting medium in the thermally conductive space
Heat exchange is carried out with the refrigeration space;
Adjustment mechanism is connected with multiple thermally conductive spaces, and being used for will be in target thermally conductive space allocation to specified refrigeration space.
2. the apparatus according to claim 1, which is characterized in that
Multiple thermally conductive spaces include at least: the first thermally conductive space and the second thermally conductive space;
Multiple refrigeration spaces include at least: the first refrigeration space and the second refrigeration space, wherein first refrigeration space
It is different from the preset cryogenic temperature of the second refrigeration space;
Wherein, the described first thermally conductive space is arranged in first refrigeration space, and the second thermally conductive space is arranged described
In second refrigeration space;
The adjustment mechanism is used for the described first thermally conductive space allocation to second refrigeration space, thermally conductive by described second
Space allocation is to first refrigeration space.
3. the apparatus according to claim 1, which is characterized in that described device further include:
Heat-conducting medium storage unit is connected to, for storing the heat-conducting medium from the different thermally conductive spaces.
4. device according to claim 3, which is characterized in that described device further include:
Control valve is arranged between the thermally conductive space and the heat-conducting medium storage unit, exists for controlling the heat-conducting medium
It is flowed between the thermally conductive space and the heat-conducting medium storage unit.
5. the apparatus according to claim 1, which is characterized in that the heat-conducting medium includes: water.
6. a kind of controlling method for refrigerator characterized by comprising
Detect multiple refrigeration spaces of refrigerator and the state parameter in multiple thermally conductive spaces, wherein multiple thermally conductive space settings
In the different refrigeration spaces, for carrying out hot friendship with the refrigeration space by the heat-conducting medium in the thermally conductive space
It changes;
According to the state parameter, judging whether to need will be in target thermally conductive space allocation to specified refrigeration space;
In the case where needing in the thermally conductive space allocation of the target to the specified refrigeration space, by the thermally conductive sky of the target
Between be moved in the specified refrigeration space.
7. according to the method described in claim 6, it is characterized in that, judging whether to need target according to the state parameter
Include: in thermally conductive space allocation to specified refrigeration space
Whether the thermally conductive temperature for detecting the thermally conductive space of the target reaches predetermined adjustment temperature, wherein predetermined adjustment temperature is to refer to
Determine the temperature for needing the heat-conducting medium in the thermally conductive space to reach in refrigeration space;
In the case where the thermally conductive temperature reaches predetermined adjustment temperature, determines and need the thermally conductive space allocation of the target to institute
It states in specified refrigeration space.
8. according to the method described in claim 6, it is characterized in that, the refrigerator further include: the heat-conducting medium storage unit leads to
It crosses control valve to be connected to from the different thermally conductive spaces, for storing the heat-conducting medium.
9. according to the method described in claim 8, it is characterized in that, in the multiple refrigeration spaces and multiple thermally conductive skies for detecting refrigerator
Between state parameter after, the method also includes:
Detect whether the environment temperature in the refrigeration space is lower than preset cryogenic temperature;
In the case where the environment temperature is lower than the cryogenic temperature, whether the compressor for detecting the refrigerator is in booting shape
State;
It lower than the cryogenic temperature and in the case that the compressor is in the open state, is opened in the environment temperature
The control valve injects the heat-conducting medium to the thermally conductive space.
10. according to the method described in claim 8, it is characterized in that, the heat-conducting medium be water in the case where, the target
The state of the heat-conducting medium is ice in thermally conductive space, is moved in the specified refrigeration space by the thermally conductive space of the target
Later, the method also includes:
The control valve is opened, the water melted in the thermally conductive space of the target is controlled and flows into the heat-conducting medium storage unit.
11. according to the method described in claim 6, it is characterized in that,
Multiple thermally conductive spaces include at least: the first thermally conductive space and the second thermally conductive space;
Multiple refrigeration spaces include at least: the first refrigeration space and the second refrigeration space, wherein first refrigeration space
Different from preset cryogenic temperature in second refrigeration space, the cryogenic temperature is used to control the unlatching of compressor.
12. according to the method for claim 11, which is characterized in that
In the initial state, the described first thermally conductive space is arranged in first refrigeration space, and the second thermally conductive space is set
It sets in second refrigeration space;
It, will be described thermally conductive in current refrigeration space in the case where needing to adjust the thermally conductive space in current refrigeration space
Space allocation includes: in other refrigeration spaces into the refrigerator in addition to current refrigeration space
By the described first thermally conductive space allocation to second refrigeration space, by the described second thermally conductive space allocation to described first
Refrigeration space.
13. the method according to any one of claim 6 to 12, which is characterized in that the state parameter includes at least: institute
State the environment temperature of refrigeration space, the working condition of the freezer compressor, the thermally conductive temperature in the thermally conductive space.
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JP2014145501A (en) * | 2013-01-28 | 2014-08-14 | Toshiba Corp | Refrigerator |
CN107192195A (en) * | 2017-05-16 | 2017-09-22 | 合肥华凌股份有限公司 | A kind of refrigerator |
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CN1194687A (en) * | 1996-05-31 | 1998-09-30 | 松下冷机株式会社 | Refrigerator |
CN1340146A (en) * | 1999-02-19 | 2002-03-13 | Bsh博施及西门子家用器具有限公司 | Freezer cabinet with cold accumulators |
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