Invention content
It is an object of the invention to improve the temperature stability of refrigerator storage space.
A further object of the present invention is to reduce energy consumption of refrigerator, the storage effect of food in refrigerator is improved.
Particularly, the present invention provides a kind of refrigeration control method of refrigerator, wherein refrigerator includes:Babinet, it is interior to limit
The reefer space for having refrigerating space and being set to below refrigerating space, reefer space include the upper layer support set gradually from top to bottom
Disk space, upper layer drawer space, lower tray space and lower layer's drawer space;Door body is set to the front side of babinet, for user
Open or close refrigerating space and reefer space;Refrigeration system, including compressor, and be configured to refrigerating space and reefer space
Cold is provided;Air door is refrigerated, is controllably connected to refrigerating space;And branch air-supply arrangement, including wind turbine, and have and refrigeration
The refrigeration air outlet and held in the palm with upper layer drawer space, lower layer's drawer space and including upper tray space and lower layer that air door is connected to
The freezing air outlet that the pallet space of disk space is controllably connected to, it is empty that the cold that refrigeration system is provided controllably is sent into refrigeration
Between and/or reefer space;And refrigeration control method includes:Detect refrigerating space, upper layer drawer space, lower layer's drawer space with
And the actual temperature in pallet space;It is more than preset refrigeration the sum of turn-on temperature and preset value in the actual temperature of refrigerating space,
Or the actual temperature of upper layer drawer space is more than the sum of preset upper layer drawer turn-on temperature and preset value or lower layer's drawer space
Actual temperature be more than the actual temperature in the sum of preset lower layer's drawer turn-on temperature and preset value or pallet space and be more than and preset
Pallet turn-on temperature when, according to refrigerating space, upper layer drawer space, lower layer's drawer space and the practical temperature in pallet space
The refrigeration parameter, the upper layer drawer parameter of upper layer drawer space, lower layer's pumping of lower layer's drawer space of refrigerating space is respectively set in degree
Drawer parameter and the pallet parameter in pallet space, wherein refrigeration parameter, upper layer drawer parameter, lower layer's drawer parameter and pallet ginseng
Number includes:First parameter and the second parameter;And according to refrigeration parameter, upper layer drawer parameter, lower layer's drawer parameter and support
The set of disk parameter makes compressor, wind turbine, refrigeration air door and branch air-supply arrangement according to preset state work corresponding with set
Make.
Optionally, in detection refrigerating space, upper layer drawer space, lower layer's drawer space and the actual temperature in pallet space
The step of before further include:Refrigeration parameter, upper layer drawer parameter, lower layer's drawer parameter and pallet parameter are initialized,
Refrigeration parameter, upper layer drawer parameter, lower layer's drawer parameter and pallet parameter is set to be disposed as the first parameter.
Optionally, the step of refrigeration parameter of refrigerating space is arranged include:Judge whether current refrigeration parameter is first
Parameter;If so, judge whether the actual temperature of refrigerating space is more than refrigeration turn-on temperature, and when result is to be, setting refrigeration
Parameter is the second parameter;When result is no, setting refrigeration parameter is the first parameter;If it is not, judging the practical temperature of refrigerating space
Whether degree is less than preset refrigeration shutoff temperature, and when result is to be, setting refrigeration parameter is the first parameter;It is no in result
When, setting refrigeration parameter is the second parameter.
Optionally, the step of setting upper layer drawer parameter includes:Judge whether current upper layer drawer parameter is the first ginseng
Number;If so, judging whether the actual temperature of upper layer drawer space is more than the sum of upper layer drawer turn-on temperature and preset value, and tying
Fruit is when being, setting upper layer drawer parameter is the second parameter;When result is no, setting upper layer drawer parameter is the first parameter;
If it is not, judge whether the actual temperature of upper layer drawer space is less than preset upper layer drawer shutoff temperature, and when result is to be,
Setting upper layer drawer parameter is the first parameter;When result is no, setting upper layer drawer parameter is the second parameter.
Optionally, the step of setting lower layer's drawer parameter includes:Judge whether current lower layer's drawer parameter is the first ginseng
Number;If so, judging whether the actual temperature of lower layer's drawer space is more than the sum of lower layer's drawer turn-on temperature and preset value, and tying
Fruit is when being, setting lower layer drawer parameter is the second parameter;When result is no, setting lower layer drawer parameter is the first parameter;
If it is not, judge whether the actual temperature of lower layer's drawer space is less than preset lower layer's drawer shutoff temperature, and when result is to be,
It is the first parameter that lower layer's drawer parameter, which is arranged,;When result is no, setting lower layer drawer parameter is the second parameter.
Optionally, the step of setting pallet parameter includes:Judge whether current pallet parameter is the first parameter;If so,
Judge whether the actual temperature in pallet space is more than pallet turn-on temperature, and when result is to be, setting pallet parameter is second
Parameter;When result is no, setting pallet parameter is the first parameter;If it is not, judging whether the actual temperature in pallet space is less than
Preset pallet shutoff temperature, and when result is to be, setting pallet parameter is the first parameter;When result is no, setting support
Disk parameter is the second parameter.
Optionally, make compressor, wind turbine, refrigerating air door and branch air-supply arrangement according to default shape corresponding with set
Further include after the step of state works:Again refrigerating space, upper layer drawer space, lower layer's drawer space and pallet space are detected
Actual temperature;Judge to refrigerate whether parameter, upper layer drawer parameter, lower layer's drawer parameter and pallet parameter are the first ginseng
Number;And execute the step of refrigeration parameter of refrigerating space is arranged according to the actual temperature of refrigerating space if it is not, returning.
Optionally, the freezing air outlet of branch air-supply arrangement includes:It is taken out with the upper layer that upper layer drawer space is controllably connected to
Drawer air outlet, be controllably connected to lower layer drawer space lower layer drawer air outlet and the support that is controllably connected to pallet space
Disk air outlet.
Optionally, when it is the first parameter to refrigerate parameter, refrigeration air door is closed;It is cold when it is the second parameter to refrigerate parameter
Hide door opening;When on upper layer, drawer parameter is the first parameter, the upper layer drawer air outlet of branch air-supply arrangement is closed;On upper layer
When drawer parameter is the second parameter, the upper layer drawer air outlet of branch air-supply arrangement is opened;It is the first ginseng in lower layer's drawer parameter
When number, lower layer's drawer air outlet of branch air-supply arrangement is closed;When lower layer's drawer parameter is the second parameter, branch air-supply arrangement
Lower layer drawer air outlet open;When pallet parameter is the first parameter, the pallet air outlet of branch air-supply arrangement is closed;It is holding in the palm
When disk parameter is the second parameter, the pallet air outlet of branch air-supply arrangement is opened.
According to another aspect of the present invention, a kind of computer storage media is additionally provided, wherein being stored with computer journey
Sequence, and when computer program is run cause the place equipment of computer storage media to execute the refrigeration control of any of the above-described kind of refrigerator
Method processed.
The refrigeration control method and computer storage media of the refrigerator of the present invention, by detecting refrigerating space, upper layer drawer
The actual temperature in space, lower layer's drawer space and pallet space;It is more than preset refrigeration in the actual temperature of refrigerating space to open
The sum of machine temperature and preset value or the actual temperature of upper layer drawer space are more than preset upper layer drawer turn-on temperature and preset value
The sum of or the actual temperature of lower layer's drawer space be more than the sum of preset lower layer's drawer turn-on temperature and preset value or pallet sky
Between actual temperature be more than preset pallet turn-on temperature when, according to refrigerating space, upper layer drawer space, lower layer's drawer space with
And the actual temperature in pallet space be respectively set the refrigeration parameter of refrigerating space, the upper layer drawer parameter of upper layer drawer space,
Lower layer's drawer parameter of lower layer's drawer space and the pallet parameter in pallet space;And joined according to refrigeration parameter, upper layer drawer
Number, lower layer's drawer parameter and pallet parameter set make compressor, wind turbine, refrigeration air door and branch air-supply arrangement according to
Gather corresponding preset state work, single storage space separate refrigeration or multiple storage spaces may be implemented while freezing, it is full
The refrigeration demand of each storage space of foot, improves the temperature stability of refrigerator storage space.
Further, the refrigeration control method and computer storage media of refrigerator of the invention, in the reality of refrigerating space
Temperature is more than preset refrigeration the sum of turn-on temperature and preset value or the actual temperature of upper layer drawer space is more than preset upper layer
The actual temperature of the sum of drawer turn-on temperature and preset value or lower layer's drawer space be more than preset lower layer's drawer turn-on temperature with
Just freeze to each storage space when the actual temperature in the sum of preset value or pallet space is more than preset pallet turn-on temperature
Judge, avoids refrigeration system frequent starting, effectively reduce energy consumption.
Further, the refrigeration control method and computer storage media of refrigerator of the invention, on refrigeration parameter, upper layer
Drawer parameter, lower layer's drawer parameter are the first parameter can make compressor with preset second when pallet parameter is the second parameter
Compressor rotary speed works, and wind turbine is worked with preset second rotation speed of fan, and refrigeration air door is closed, and the upper layer of branch air-supply arrangement is taken out
Drawer air outlet and lower layer's drawer air outlet are closed, and pallet air outlet is opened, so as to empty to upper tray space and lower tray
Between blow while using heat transmission cool down to upper layer drawer space and lower layer's drawer space, can be to avoid frequently to freezing
Space, which is blown, makes food therein become drying due to by wind, influences the storage quality of food.
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.
Specific implementation mode
The present embodiment provides firstly a kind of refrigeration control method of refrigerator, and single storage space separate refrigeration may be implemented
Or multiple storage spaces freeze simultaneously, consider the actual temperature situation of refrigerating space and reefer space, more reasonably into
Row refrigeration, meets the refrigeration demand of each storage space, improves the temperature stability of refrigerator storage space.Fig. 1 is according to this hair
The schematic diagram of the applicable refrigerator 100 of the refrigeration control method of the refrigerator of bright one embodiment, the refrigerator 100 is in general manner
May include:Babinet 10, door body, refrigeration system, branch air-supply arrangement 20 and refrigeration air door.
Wherein, multiple storage spaces can be defined inside babinet 10, the quantity and structure of storage space can bases
Demand is configured.Fig. 1 shows the case where the first space set gradually from top to bottom and second space, wherein each storing is empty
Between can be respectively set to refrigerating space, reefer space, alternating temperature space or fresh-keeping space.It can be by dividing inside each storage space
Partition board is divided into multiple storage areas, utilizes rack or drawer storage article.In the babinet 10 of the refrigerator 100 of the present embodiment
It defines refrigerating space 11 and is set to the reefer space of the lower section of refrigerating space 11, wherein reefer space includes from top to bottom successively
Upper tray space 141, upper layer drawer space 12, lower tray space 142 and the lower layer's drawer space 13 of setting.It is at the middle and upper levels
Pallet space 141 and lower tray space 142 are referred to as pallet space 14, are blown by a pallet air outlet 233.I.e.
When pallet air outlet 233 is opened, while blowing to upper tray space 141 and lower tray space 142;Pallet air outlet 233
When closing, it is simultaneously stopped to upper tray space 141 and the air-supply of lower tray space 142.
Door body is set to the front side of babinet 10, and so that user opens or closes the storage space of refrigerator 100, door body can be with
Storage space is correspondingly arranged, i.e., each storage space is corresponding with one or more door body.And the number of storage space and door body
Amount, the function of storage space can be by concrete condition actual selections.In some other embodiment, the door-opening mode of storage space is also
Drawer type unlatching may be used, to realize the storage space of drawer type.Wherein the refrigerating space 11 of the refrigerator 100 of the present embodiment,
Upper layer drawer space 12 and lower layer's drawer space 13 can be correspondingly arranged on door body, and the door body of refrigerating space 11 can pivot
It is set to 10 front side of babinet, and the door-opening mode of upper layer drawer space 12 and lower layer's drawer space 13 is opened for drawer type.
The refrigerant system configuration of refrigerator 100 provides cold to storage space.The refrigeration system of the present embodiment includes compression
Machine, compressor can be installed in compressor bin.Specifically, refrigeration system can be by compressor, condenser, throttling set and
The cooling cycle system of the compositions such as evaporator.Can also have cooling space, the evaporator of refrigeration system that can set in babinet 10
It is placed in cooling space.Known by those skilled in the art, refrigeration system is alternatively other types of refrigeration system, and such as half
The cold end cooler of conductor refrigeration system, semiconductor refrigeration system may be disposed in cooling space.
The storage space of the refrigerator 100 of the present embodiment includes:Refrigerating space 11 and reefer space, refrigeration system are empty to refrigeration
Between 11 colds that provide with reefer space it is different so that the temperature in refrigerating space 11 and reefer space also differs.It is wherein cold
The temperature hidden in space 11 is typically between 2 DEG C to 10 DEG C, is preferably 3 DEG C to 8 DEG C.Temperature range in reefer space is general
In -22 DEG C to -14 DEG C.The best storage temperature of different types of food simultaneously differs, and then suitable for the storage space of storage
Also it and differs.Such as fruit and vegetable is suitable for depositing in refrigerating space 11, and meat food is suitable for depositing in reefer space.
Fig. 2 is the schematic diagram of branch air-supply arrangement 20 in Fig. 1 refrigerators 100, and Fig. 3 is Fig. 2 branches air-supply arrangement 20
The schematic diagram at another visual angle.Branch air-supply arrangement 20 may include shell 21 and regulating part in general manner (due to setting
In the inside of shell 21 thus be not shown in the figure).Shell 21 can have at least one air inlet (to be carried on the back due to being set to shell 21
Portion is thus not shown in the figure) and multiple air outlets, so that air-flow enters via at least one air inlet in shell 21, and from
Multiple air outlets flow out the shell 21.
Multiple air outlets of the branch air-supply arrangement 20 of the present embodiment include the refrigeration air outlet 22 being connected to refrigeration air door
Freezing air outlet with being controllably connected to upper layer drawer space 12, lower layer's drawer space 13 and pallet space 14, will make
The cold that cooling system provides controllably is sent into refrigerating space 11 and/or reefer space.Refrigeration air outlet 22 is constantly in opening state
State can only adjust the air quantity for being sent to refrigerating space 11 by the refrigeration air door being connected to refrigeration air outlet 22;And freeze air outlet
The air quantity for being sent to reefer space then can be adjusted by adjusting air-out area.
The freezing air outlet of branch air-supply arrangement 20 includes:Go out with the upper layer drawer that upper layer drawer space 12 is controllably connected to
Air port 231, the lower layer's drawer air outlet 232 being controllably connected to lower layer drawer space 13 and controllably connect with pallet space 14
Logical pallet air outlet 233.Regulating part can be configured to controllably to upper layer drawer air outlet 231, lower layer's drawer air outlet 232 with
And pallet air outlet 233 carry out it is completely obscured, partly cover or be completely exposed, with adjust upper layer drawer air outlet 231, lower layer take out
233 respective air-out area of drawer air outlet 232 and pallet air outlet.The tune of branch air-supply arrangement 20 in the embodiment of the present invention
Section part the cold wind flowed into from air inlet can controllably be distributed to upper layer drawer air outlet 231, lower layer's drawer air outlet 232 with
And pallet air outlet 233, control and upper layer drawer air outlet 231, lower layer's drawer air outlet 232 and pallet outlet air may be implemented
The opening and closing of the exhaust air flues of mouthfuls 233 connections and/or the air-out volume in each exhaust air flue is adjusted, and then to meet not
With the refrigeration requirement of storage space.
The refrigeration air outlet 22 of the branch air-supply arrangement 20 of the present embodiment is three, is respectively arranged at branch air-supply arrangement 20
Top.It is three to freeze air outlet:Upper layer drawer air outlet 231, lower layer's drawer air outlet 232 and pallet air outlet 233,
And it can be spaced setting successively along the circumferential direction of shell 21.In some other embodiment, the reefer space of refrigerator 100 is arranged
For other quantity when, branch air-supply arrangement 20 can with corresponding number freezing air outlet.
The branch air-supply arrangement 20 of the present embodiment further includes wind turbine (due to being set to 21 back of shell thus not in figure
Show), it is configured to promote air-flow from least one air inlet inflow shell 21 and via one or more of multiple air outlets
Shell 21 is flowed out, to improve the efficiency of air-supply.The wind turbine can also make the branch air-supply arrangement 20 in the embodiment of the present invention independent into
Wind.Further, in some embodiments, wind turbine can be centrifugal impeller, be set in shell 21;In some alternative implementations
In mode, wind turbine is alternatively axial flow blower, axis stream air duct or centrifugal blower, and the air inlet in shell 21 is arranged.Obviously, wind turbine
For centrifugal impeller, and in shell 21, the compact-sized, small of branch air-supply arrangement 20 can be made.
Refrigeration air door (not shown) is controllably connected to refrigerating space 11, and is connected to refrigeration air outlet 22, is configured
The cold conveyed to refrigerating space 11 is adjusted at cooperation refrigeration air outlet 22.Refrigeration air door is set to 11 bottom of refrigerating space, by
It is constantly in open state in refrigeration air outlet 22, the air output to refrigerating space 11 may be implemented in the opening and closing by refrigerating air door
Adjusting, and then it is more accurate to the control of 11 temperature of refrigerating space.
Fig. 4 is the schematic diagram of the refrigeration control method of refrigerator according to an embodiment of the invention.The refrigeration control of the refrigerator
Method processed can be adapted for the refrigerator 100 of any of the above-described embodiment.As shown in figure 4, should the refrigerator temperature controlling party based on food
Method can execute following steps:
Step S402 detects refrigerating space 11, upper layer drawer space 12, lower layer's drawer space 13 and pallet space 14
Actual temperature TR, TF1, TF2 and TF3;
Step S404, in TR > tr-on+A or TF1 > tf1-on+A or TF2 > tf2-on+A or TF3 > tf3-on,
The refrigeration parameter R (State) of refrigerating space 11 is respectively set according to TR, TF1, TF2, TF3, the upper layer of upper layer drawer space 12 is taken out
Drawer parameter F1 (State), the lower layer drawer parameter F2 (State) of lower layer's drawer space 13 and the pallet parameter in pallet space 14
F3(State);
Step S406, according to refrigeration parameter R (State), upper layer drawer parameter F1 (State), lower layer drawer parameter F2
(State) and the set of pallet parameter F3 (State) make compressor, wind turbine, refrigeration air door and branch air-supply arrangement 20 by
It works according to preset state corresponding with set.
In step S402 can by be set to refrigerating space 11, upper layer drawer space 12, lower layer's drawer space 13 and
Temperature sensor detection refrigerating space 11, upper layer drawer space 12, lower layer's drawer space 13 and the pallet sky in pallet space 14
Between 14 actual temperature TR, TF1, TF2 and TF3.The type, size and installation site of wherein temperature sensor can be according to reality
Demand and situation are configured.The refrigerator 100 of the present embodiment is provided with refrigerating space 11, upper layer drawer space 12, lower layer's drawer
Space 13 and pallet space 14 can be respectively arranged with temperature sensor in four storage spaces, to detect four storing skies
Between actual temperature.It should be noted that since pallet space 14 includes upper tray space 141 and lower tray space 142,
The actual temperature in pallet space 14 is determined by the same temperature sensor, which can be set to upper tray sky
Between 141 and the common air duct in lower tray space 142 at or air outlet at.
Tr-on in step S404 is 11 preset refrigeration turn-on temperature of refrigerating space, and tf1-on is upper layer drawer space
12 preset upper layer drawer turn-on temperatures, tf2-on are 13 preset lower layer's drawer turn-on temperature of lower layer's drawer space, tf3-on
For 14 preset pallet turn-on temperature of pallet space, A is a preset value.Each turn-on temperature and preset value A can be according to each
The refrigeration of storage space requires to be configured.Such as higher, each turn-on temperature and preset value A are required to the refrigeration of each storage space
What can be arranged is relatively low.
Refrigeration parameter R (State), upper layer drawer parameter F1 (State), lower layer drawer parameter F2 in step S404
(State) and pallet parameter F3 (State) may each comprise:First parameter and the second parameter.Wherein the first parameter and second
Ginseng is set as different, such as the first parameter can be 0, and the second parameter can be 1.Two parameters may indicate that each storage space
Whether need to freeze, such as the first parameter 0 shows to freeze, the second parameter 1 demonstrates the need for freezing.Two above parameter
Concrete numerical value only enumerates, and not limitation of the invention, and in some other embodiment, two parameters can be for other not
Same two values.
It is empty in step S402 detections refrigerating space 11, upper layer drawer space 12, lower layer's drawer in some other embodiment
Between 13 and pallet space 14 actual temperature TR, TF1, TF2 and TF3 before can be with:To refrigeration parameter, upper layer drawer ginseng
Number, lower layer's drawer parameter and pallet parameter are initialized, make refrigeration parameter, upper layer drawer parameter, lower layer's drawer parameter with
And pallet parameter is disposed as the first parameter.
In some specific embodiments, the refrigeration parameter R (State) of refrigerating space 11 is set in step S404 according to TR
The step of may include:Judge whether current refrigeration parameter is the first parameter;If so, judging the actual temperature of refrigerating space 11
Whether refrigeration turn-on temperature is more than, and when result is to be, setting refrigeration parameter is the second parameter;When result is no, setting
Refrigeration parameter is the first parameter;If it is not, judge whether the actual temperature of refrigerating space 11 is less than preset refrigeration shutoff temperature, and
When result is to be, setting refrigeration parameter is the first parameter;When result is no, setting refrigeration parameter is the second parameter.It needs
Illustrate, since refrigeration parameter only includes the first parameter and the second parameter, if current refrigeration parameter is not the first parameter,
Current refrigeration parameter is the second parameter.
May include according to the step of upper layer drawer parameter F1 (State) of TF1 setting upper layer drawer spaces 12:Judgement is worked as
Whether preceding upper layer drawer parameter is the first parameter;If so, judging whether the actual temperature of upper layer drawer space 12 is more than upper layer
The sum of drawer turn-on temperature and preset value, and when result is to be, setting upper layer drawer parameter is the second parameter;It is no in result
When, setting upper layer drawer parameter is the first parameter;If it is not, it is preset to judge whether the actual temperature of upper layer drawer space 12 is less than
Upper layer drawer shutoff temperature, and when result is to be, setting upper layer drawer parameter is the first parameter;When result is no, setting
Upper layer drawer parameter is the second parameter.
May include according to the step of lower layer drawer parameter F2 (State) of TF2 settings lower layer drawer space 13:Judgement is worked as
Whether preceding lower layer's drawer parameter is the first parameter;If so, judging whether the actual temperature of lower layer's drawer space 13 is more than lower layer
The sum of drawer turn-on temperature and preset value, and when result is to be, setting lower layer drawer parameter is the second parameter;It is no in result
When, setting lower layer drawer parameter is the first parameter;If it is not, it is preset to judge whether the actual temperature of lower layer's drawer space 13 is less than
Lower layer's drawer shutoff temperature, and when result is to be, setting lower layer drawer parameter is the first parameter;When result is no, setting
Lower layer's drawer parameter is the second parameter.
May include according to the step of pallet parameter F3 (State) in TF3 setting pallets space 14:Judge current pallet
Whether parameter is the first parameter;If so, judge whether the actual temperature in pallet space 14 is more than pallet turn-on temperature, and in result
When to be, setting pallet parameter is the second parameter;When result is no, setting pallet parameter is the first parameter;If it is not, judging support
Whether the actual temperature of disk space 14 is less than preset pallet shutoff temperature, and when result is to be, setting pallet parameter is the
One parameter;When result is no, setting pallet parameter is the second parameter.
Make compressor, wind turbine, refrigeration air door and branch air-supply arrangement according to corresponding with set default in step S406
Can also include after the step of work status:Again refrigerating space 11, upper layer drawer space 12, lower layer's drawer space 13 are detected
And the actual temperature in pallet space 14;Judging refrigeration parameter, upper layer drawer parameter, lower layer's drawer parameter and pallet parameter is
No is the first parameter;And join if it is not, returning and executing the refrigeration that refrigerating space 11 is respectively set according to TR, TF1, TF2, TF3
Lower layer's drawer parameter of number R (State), the upper layer drawer parameter F1 (State) of upper layer drawer space 12, lower layer's drawer space 13
The step of F2 (State) and pallet parameter F3 (State) in pallet space 14.
Due to the refrigerator 100 of the present embodiment be provided with refrigerating space 11, upper layer drawer space 12, lower layer's drawer space 13 with
And pallet space 14, thus the collection of parameter is combined into the set of four numerical value in step S406.In some other embodiment, refrigerator
There are one when refrigerating space 11 and a reefer space, the set of parameter can be the set of two values for 100 settings.
Different refrigeration parameters, the set of upper layer drawer parameter, lower layer's drawer parameter and pallet parameter in step S406,
Corresponding compressor, wind turbine, refrigeration air door and branch air-supply arrangement 20 preset state it is also different.Specifically, it can preset
Stateful information table pre-saves the corresponding preset state of different parameter sets in the status information table, is determining parameter
After set, it can match and obtain corresponding preset state.Wherein preset state includes:The rotating speed of compressor and wind turbine;Refrigerate wind
The open and-shut mode of door;Upper layer drawer air outlet 231, lower layer's drawer air outlet 232 and the pallet outlet air of branch air-supply arrangement 20
The open and-shut mode of mouth 233.
Usually, when the refrigeration parameter in parameter sets is the first parameter, refrigeration air door is closed;And it is in refrigeration parameter
When the second parameter, door opening is refrigerated.When on upper layer, drawer parameter is the first parameter, the upper layer drawer of branch air-supply arrangement 20 goes out
Air port 231 is closed;When on upper layer, drawer parameter is the second parameter, the upper layer drawer air outlet 231 of branch air-supply arrangement 20 is opened;
When lower layer's drawer parameter is the first parameter, lower layer's drawer air outlet 232 of branch air-supply arrangement 20 is closed;Join in lower layer's drawer
When number is the second parameter, lower layer's drawer air outlet 232 of branch air-supply arrangement 20 is opened;When pallet parameter is the first parameter,
The pallet air outlet 233 of branch air-supply arrangement 20 is closed;When pallet parameter is the second parameter, the pallet of branch air-supply arrangement 20
Air outlet 233 is opened.
It should be noted that compressor in step S406, wind turbine, refrigeration air door and branch air-supply arrangement 20 can be according to
Preset state work preset duration corresponding with set, to meet the refrigeration demand of each storage space, in work preset duration
In the process, detection temperature, the process of arrange parameter are no longer executed, can be slightly decreased to avoid the actual temperature of storage space and just sentence
The case where fixed its need not freeze, frequently change so as to cause the working condition of the equipment such as compressor.Work preset duration it
Afterwards, temperature can be detected again, carry out new primary refrigeration control.
The refrigeration control method of the refrigerator of the present embodiment, may be implemented single storage space separate refrigeration or multiple storings are empty
Between freeze simultaneously, the actual temperature situation of refrigerating space 11 and reefer space is considered, so as to more reasonably carry out
Refrigeration meets the refrigeration demand of each storage space, improves the temperature stability of refrigerator storage space;In the reality of refrigerating space 11
Border temperature is more than the actual temperature of preset refrigeration the sum of turn-on temperature and preset value or upper layer drawer space 12 more than preset
The actual temperature of the sum of upper layer drawer turn-on temperature and preset value or lower layer's drawer space 13 is switched on more than preset lower layer's drawer
Just to each storage space when the sum of temperature and preset value or the actual temperature in pallet space 14 are more than preset pallet turn-on temperature
Refrigeration judgement is carried out, refrigeration system frequent starting is avoided, effectively reduces energy consumption.
In some optional embodiments, advanced optimizing and configuring so that refrigerator 100 is real to above-mentioned steps can be passed through
Existing higher technique effect, below in conjunction with an introduction for optionally performing flow to the present embodiment to the refrigerator of the present embodiment
Refrigeration control method is described in detail, the embodiment be only to execute flow for example, in the specific implementation, Ke Yigen
According to specific implementation demand, to part steps execute sequence, service condition is modified.Fig. 5 is according to one implementation of the present invention
The detail flowchart of the refrigeration control method of the refrigerator of example, the refrigeration control method of the refrigerator include the following steps:
Step S502, to refrigeration parameter R (State), upper layer drawer parameter F1 (State), lower layer drawer parameter F2
(State) it is initialized with pallet parameter F3 (State), makes R (State), F1 (State), F2 (State) and F3
(State) it is disposed as the first parameter;
Step S504 detects the reality of refrigerating space 11, upper layer drawer space 12, lower layer's drawer space 13 and pallet space 14
Border temperature TR, TF1, TF2 and TF3;
Step S506 judges whether TR > tr-on+A or TF1 > tf1-on+A or TF2 > tf2-on+A or TF3 > tf3-
On, if so, step S508 is executed, if it is not, returning to step S504;
Step S508, according to the actual temperature TR, the actual temperature TF1 of upper layer drawer space 12, lower layer of refrigerating space 11
Refrigeration parameter R (State), upper layer is respectively set in the actual temperature TF2 of drawer space 13, the actual temperature TF3 in pallet space 14
Drawer parameter F1 (State), lower layer drawer parameter F2 (State) and pallet parameter F3 (State);
Step S510, according to refrigeration parameter R (State), upper layer drawer parameter F1 (State), lower layer drawer parameter F2
(State) and the set of pallet parameter F3 (State) make compressor, wind turbine, refrigeration air door and branch air-supply arrangement 20 according to
Preset state work corresponding with set;
Step S512 detects refrigerating space 11, upper layer drawer space 12, lower layer's drawer space 13 and pallet space 14 again
Actual temperature TR, TF1, TF2 and TF3;
Step S514 judges to refrigerate parameter R (State), upper layer drawer parameter F1 (State), lower layer drawer parameter F2
(State) and whether pallet parameter F3 (State) is disposed as the first parameter, if so, S504 is returned to step, if it is not, returning
Receipt row step S508.
It can be by being set to refrigerating space 11, upper layer drawer space 12, lower layer's drawer space 13 and support in step S504
The temperature sensor detection Tibetan space of disk space 14, the reality of upper layer drawer space 12, lower layer's drawer space 13 and pallet space 14
Border temperature TR, TF1, TF2 and TF3.The type, size and installation site of wherein temperature sensor can be according to actual demands and feelings
Condition is configured.
Fig. 6 be refrigerator according to an embodiment of the invention refrigeration control method according to the practical temperature of refrigerating space 11
The flow chart of degree setting refrigeration parameter;Fig. 7 be refrigerator according to an embodiment of the invention refrigeration control method according to upper
The flow chart of the actual temperature setting upper layer drawer parameter of layer drawer space 12;Fig. 8 is ice according to an embodiment of the invention
The flow chart of lower layer's drawer parameter is set in the refrigeration control method of case according to the actual temperature of lower layer's drawer space 13;Fig. 9 is
Pallet is arranged according to the actual temperature in pallet space 14 in the refrigeration control method of refrigerator according to an embodiment of the invention to join
Several flow charts.It is empty that Fig. 6 to Fig. 9 respectively illustrates actual temperature TR, upper layer drawer in step S508 according to refrigerating space 11
Between 12 actual temperature TF1, the actual temperature TF2 of lower layer's drawer space 13, the actual temperature TF3 in pallet space 14 be respectively set
Refrigerate parameter R (State), upper layer drawer parameter F1 (State), lower layer drawer parameter F2 (State) and pallet parameter F3
(State) detailed process.
As shown in fig. 6, the detailed process that refrigeration parameter is arranged according to the actual temperature of refrigerating space 11 includes:
Step S602 judges whether current refrigeration parameter R (State) is the first parameter, if so, step S604 is executed,
If it is not, executing step S606;
Step S604 judges whether TR > tr-on, if so, step S608 is executed, if it is not, executing step S610;
Step S606 judges whether TR < tr-off, if so, step S610 is executed, if it is not, executing step S608;
Step S608, setting refrigeration parameter R (State) are the second parameter;
Step S610, setting refrigeration parameter R (State) are the first parameter.
Wherein, the tr-off in step S606 is 11 preset refrigeration shutoff temperature of refrigerating space.
As shown in fig. 7, the detailed process that upper layer drawer parameter is arranged according to the actual temperature of upper layer drawer space 12 includes:
Step S702 judges whether current upper layer drawer parameter F1 (State) is the first parameter, if so, executing step
S704, if it is not, executing step S706;
Step S704 judges whether TF1 > tf1-on+A, if so, step S708 is executed, if it is not, executing step S710;
Step S706 judges whether TF1 < tf1-off, if so, step S710 is executed, if it is not, executing step S708;
Step S708, setting upper layer drawer parameter F1 (State) are the second parameter;
Step S710, setting upper layer drawer parameter F1 (State) are the first parameter.
Wherein, the tf1-off in step S706 is 12 preset upper layer drawer shutoff temperature of upper layer drawer space.
As shown in figure 8, the detailed process that lower layer's drawer parameter is arranged according to the actual temperature of lower layer's drawer space 13 includes:
Step S802 judges whether current lower layer drawer parameter F2 (State) is the first parameter, if so, executing step
S804, if it is not, executing step S806;
Step S804 judges whether TF2 > tf2-on+A, if so, step S808 is executed, if it is not, executing step S810;
Step S806 judges whether TF2 < tf2-off, if so, step S810 is executed, if it is not, executing step S808;
Step S808, setting lower layer drawer parameter F2 (State) are the second parameter;
Step S810, setting lower layer drawer parameter F2 (State) are the first parameter.
Wherein, the tf2-off in step S806 is 13 preset lower layer's drawer shutoff temperature of lower layer's drawer space.
As shown in figure 9, the detailed process that pallet parameter is arranged according to the actual temperature in pallet space 14 includes:
Step S902 judges whether current pallet parameter F3 (State) is the first parameter, if so, step S904 is executed,
If it is not, executing step S906;
Step S904 judges whether TF3 > tf3-on, if so, step S908 is executed, if it is not, executing step S910;
Step S906 judges whether TF3 < tf3-off, if so, step S910 is executed, if it is not, executing step S908;
Step S908, setting pallet parameter F3 (State) are the second parameter;
Step S910, setting pallet parameter F3 (State) are the first parameter.
Wherein, the tf3-off in step S906 is 14 preset pallet shutoff temperature of pallet space.
Refrigeration parameter R (State), upper layer drawer parameter F1 (State), lower layer drawer parameter F2 in above step
(State) it may each comprise with pallet parameter F3 (State):First parameter and the second parameter.Wherein the first parameter, the second parameter
It is set as different, such as the first parameter can be 0, the second parameter can be 1.Two parameters may indicate that each storage space is
It is no to need to freeze, such as the first parameter 0 shows to freeze, the second parameter 1 demonstrates the need for freezing.The tool of two above parameter
Body numerical value only enumerates, and not limitation of the invention, and in some other embodiment, two parameters can be that other are different
Two values.
Different refrigeration parameter R (State), upper layer drawer parameter F1 (State), lower layer drawer parameter F2 in step S510
(State) and the set of pallet parameter F3 (State), corresponding compressor, refrigerate air door and branch air-supply arrangement 20 at wind turbine
Preset state it is also different.Specifically, it can be preset with status information table, different ginsengs is pre-saved in the status information table
Manifold closes corresponding preset state and can match after determining parameter sets and obtain corresponding preset state.Wherein preset state
Including:The rotating speed of compressor and wind turbine;Refrigerate the open and-shut mode of air door;The upper layer drawer air outlet 231 of branch air-supply arrangement 20,
The open and-shut mode of lower layer's drawer air outlet 232 and pallet air outlet 233.
The specific example of a status information table is introduced below:
If the first parameter be 0, the second parameter be 1, then refrigerate parameter R (State), upper layer drawer parameter F1 (State), under
The set of layer drawer parameter F2 (State) and pallet parameter (State) can be by following several shapes according to the judgement of above step
Formula:(0,0,0,0), (0,0,1,0), (0,0,0,1), (0,0,1,1), (0,1,0,0), (0,1,1,0), (0,1,0,1), (0,
1,1,1), (1,0,0,0), (1,0,1,0), (1,0,0,1), (1,0,1,1), (1,1,0,0), (1,1,1,0), (1,1,0,1)
(1,1,1,1).
In refrigeration parameter R (State), upper layer drawer parameter F1 (State), lower layer drawer parameter F2 (State) and pallet
When parameter F3 (State) is the first parameter 0, the corresponding preset state of set (0,0,0,0) is:Compressor and wind turbine are shut down,
It refrigerates air door to close, upper layer drawer air outlet 231, lower layer's drawer air outlet 232 and the pallet outlet air of branch air-supply arrangement 20
Mouth 233 is turned off.
It is the first parameter in refrigeration parameter R (State), upper layer drawer parameter F1 (State) and pallet parameter F3 (State)
When 0, lower layer drawer parameter F2 (State) are the second parameter 1, the corresponding preset state of set (0,0,1,0) is:Compressor is with pre-
If the work of the second compressor rotary speed, wind turbine work with preset second rotation speed of fan, refrigeration air door closing, branch air-supply arrangement
20 upper layer drawer air outlet 231 and pallet air outlet 233 is closed, and lower layer's drawer air outlet 232 is opened.
It is first in refrigeration parameter R (State), upper layer drawer parameter F1 (State), lower layer drawer parameter F2 (State)
Parameter, when pallet parameter F3 (State) is the second parameter, the corresponding preset state of set (0,0,0,1) is:Compressor is with second
Compressor rotary speed works, and wind turbine is worked with the second rotation speed of fan, and refrigeration air door is closed, and the upper layer drawer of branch air-supply arrangement 20 goes out
Air port 231, lower layer's drawer air outlet 232 are closed, and pallet air outlet 233 is opened.
It is the first parameter, lower layer drawer parameter F2 in refrigeration parameter R (State), upper layer drawer parameter F1 (State)
(State) when and pallet parameter F3 (State) is the second parameter, the corresponding preset state of set (0,0,1,1) is:Compressor with
Third compressor rotary speed more than or equal to the second compressor rotary speed works, and wind turbine is with the third wind more than or equal to the second rotation speed of fan
Machine rotary speed working, refrigeration air door are closed, and the upper layer drawer air outlet 231 of branch air-supply arrangement 20 is closed, lower layer's drawer air outlet
232 and pallet air outlet 233 open.
It is the first ginseng in refrigeration parameter R (State), lower layer drawer parameter F2 (State) and pallet parameter F3 (State)
Number, when upper layer drawer parameter F1 (State) is the second parameter, the corresponding preset state of set (0,1,0,0) is:Compressor is with
Two compressor rotary speeds work, and wind turbine is worked with the second rotation speed of fan, and refrigeration air door is closed, the upper layer drawer of branch air-supply arrangement 20
Air outlet 231 is opened, and lower layer's drawer air outlet 232 and pallet air outlet 233 are closed.
It is the first parameter, upper layer drawer parameter F1 in refrigeration parameter R (State) and pallet parameter F3 (State)
(State), when lower layer's drawer parameter F2 (State) is the second parameter, the corresponding preset state of set (0,1,1,0) is:Compression
Machine is worked with the second compressor rotary speed, and wind turbine is worked with the second rotation speed of fan, refrigeration air door close, branch air-supply arrangement 20 it is upper
Layer drawer air outlet 231 and lower layer's drawer air outlet 232 are opened, and pallet air outlet 233 is closed.
It is the first parameter, upper layer drawer parameter F1 in refrigeration parameter R (State) and lower layer drawer parameter F2 (State)
(State) when and pallet parameter F3 (State) is the second parameter, the corresponding preset state of set (0,1,0,1) is:Compressor with
Third compressor rotary speed works, and wind turbine is worked with third rotation speed of fan, and refrigeration air door is closed, and the upper layer of branch air-supply arrangement 20 is taken out
Drawer air outlet 231 and pallet air outlet 233 are opened, and lower layer's drawer air outlet 232 is closed.
It is the first parameter, upper layer drawer parameter F1 (State), lower layer drawer parameter F2 in refrigeration parameter R (State)
(State) when and pallet parameter F3 (State) is the second parameter, the corresponding preset state of set (0,1,1,1) is:Compressor with
The 4th compressor rotary speed more than or equal to third compressor rotary speed works, and wind turbine is with the 4th wind more than or equal to third rotation speed of fan
Machine rotary speed working, refrigeration air door are closed, upper layer drawer air outlet 231,232 and of lower layer's drawer air outlet of branch air-supply arrangement 20
Pallet air outlet 233 is opened.
It is the second parameter, upper layer drawer parameter F1 (State), lower layer drawer parameter F2 in refrigeration parameter R (State)
(State) when and pallet parameter F3 (State) is the first parameter, the corresponding preset state of set (1,0,0,0) is:Compressor with
The first compressor rotary speed less than or equal to the second compressor rotary speed works, and wind turbine is with the first wind less than or equal to the second rotation speed of fan
Machine rotary speed working refrigerates door opening, upper layer drawer air outlet 231,232 and of lower layer's drawer air outlet of branch air-supply arrangement 20
Pallet air outlet 233 is turned off.
It is the second parameter, upper layer drawer parameter F1 in refrigeration parameter R (State) and lower layer drawer parameter F2 (State)
(State) when and pallet parameter F3 (State) is the first parameter, the corresponding preset state of set (1,0,1,0) is:Compressor with
Third compressor rotary speed works, and wind turbine is worked with third rotation speed of fan, refrigerates door opening, and the upper layer of branch air-supply arrangement 20 is taken out
Drawer air outlet 231 and pallet air outlet 233 are closed, and lower layer's drawer air outlet 232 is opened.
It is the second parameter, upper layer drawer parameter F1 (State) in refrigeration parameter R (State) and pallet parameter F3 (State)
When with lower layer drawer parameter F2 (State) being the first parameter, set (1,0,0,1) corresponding preset state is:Compressor is with
Three compressor rotary speeds work, and wind turbine is worked with third rotation speed of fan, refrigerate door opening, the upper layer drawer of branch air-supply arrangement 20
Air outlet 231 and lower layer's drawer air outlet 232 are closed, and pallet air outlet 233 is opened.
It is the second ginseng in refrigeration parameter R (State), lower layer drawer parameter F2 (State) and pallet parameter F3 (State)
Number, when upper layer drawer parameter F1 (State) is the first parameter, the corresponding preset state of set (1,0,1,1) is:Compressor is with big
In the 4th compressor rotary speed work equal to third compressor rotary speed, wind turbine is with the four fan device more than or equal to third rotation speed of fan
Rotary speed working refrigerates door opening, and the upper layer drawer air outlet 231 of branch air-supply arrangement 20 is closed, lower layer's drawer air outlet 232
It is opened with pallet air outlet 233.
It is the second parameter, lower layer drawer parameter F2 in refrigeration parameter R (State) and upper layer drawer parameter F1 (State)
(State) when and pallet parameter F3 (State) is the first parameter, the corresponding preset state of set (1,1,0,0) is:Compressor with
Third compressor rotary speed works, and wind turbine is worked with third rotation speed of fan, refrigerates door opening, and the upper layer of branch air-supply arrangement 20 is taken out
Drawer air outlet 231 is opened, and lower layer's drawer air outlet 232 and pallet air outlet 233 are closed.
It is second in refrigeration parameter R (State), upper layer drawer parameter F1 (State) and lower layer drawer parameter F2 (State)
Parameter, when pallet parameter F3 (State) is the first parameter, the corresponding preset state of set (1,1,1,0) is:Compressor is with the 4th
Compressor rotary speed works, and wind turbine refrigerates door opening with four fan device rotary speed working, and the upper layer drawer of branch air-supply arrangement 20 goes out
Air port 231 and lower layer's drawer air outlet 232 are opened, and pallet air outlet 233 is closed.
It is the second ginseng in refrigeration parameter R (State), upper layer drawer parameter F1 (State) and pallet parameter F3 (State)
Number, when lower layer drawer parameter F2 (State) is the first parameter, the corresponding preset state of set (1,1,0,1) is:Compressor is with
Four compressor rotary speeds work, and wind turbine refrigerates door opening, the upper layer drawer of branch air-supply arrangement 20 with four fan device rotary speed working
Air outlet 231 and pallet air outlet 233 are opened, and lower layer's drawer air outlet 232 is closed.
In refrigeration parameter R (State), upper layer drawer parameter F1 (State), lower layer drawer parameter F2 (State) and pallet
When parameter F3 (State) is the second parameter, the corresponding preset state of set (1,1,1,1) is:Compressor is to be more than or equal to
5th compressor rotary speed of four compressor rotary speeds works, and wind turbine is with the 5th rotation speed of fan work more than or equal to four fan device rotating speed
Make, refrigerates door opening, upper layer drawer air outlet 231, lower layer's drawer air outlet 232 and the pallet outlet air of branch air-supply arrangement 20
Mouth 233 is opened.
According to refrigeration parameter R (State), upper layer drawer parameter F1 (State), lower layer drawer parameter F2 (State) and
The set of pallet parameter F3 (State) determines that the correspondence of compressor, wind turbine, refrigeration air door and branch air-supply arrangement 20 presets shape
After state, so that it may so that compressor, wind turbine, refrigeration air door and branch air-supply arrangement 20 are worked with the preset state determined.Its
In, the concrete numerical value of compressor rotary speed and rotation speed of fan can be set according to actual demand and situation.And most of
In the case of, compressor rotary speed and rotation speed of fan are directly proportional to 100 place environment temperature of refrigerator, i.e., environment temperature is higher, compressor
Rotating speed and rotation speed of fan are bigger.
The refrigeration control method of the refrigerator of the present embodiment, may be implemented single storage space separate refrigeration or multiple storings are empty
Between freeze simultaneously, the actual temperature situation of refrigerating space 11 and reefer space is considered, so as to more reasonably carry out
Refrigeration meets the refrigeration demand of each storage space, improves the temperature stability of refrigerator storage space.
Further, the refrigeration control method of the refrigerator of the present embodiment is more than default in the actual temperature of refrigerating space 11
Refrigeration turn-on temperature and the actual temperature of the sum of preset value or upper layer drawer space 12 be more than preset upper layer drawer booting temperature
Degree and the actual temperature of the sum of preset value or lower layer's drawer space 13 be more than preset lower layer's drawer turn-on temperature and preset value it
With or pallet space 14 actual temperature be more than preset pallet turn-on temperature when just refrigeration judgement is carried out to each storage space,
Refrigeration system frequent starting is avoided, energy consumption is effectively reduced.
Further, the refrigeration control method of the refrigerator of the present embodiment, in refrigeration parameter, upper layer drawer parameter, lower layer
Drawer parameter is the first parameter makes compressor work with preset second compressor rotary speed, wind when pallet parameter is the second parameter
Machine is worked with preset second rotation speed of fan, and refrigeration air door is closed, and the upper layer drawer air outlet 231 of branch air-supply arrangement 20 is under
Layer drawer air outlet 232 is closed, and pallet air outlet 233 is opened, so as to upper tray space 141 and lower tray space
Cooled down to upper layer drawer space 12 and lower layer's drawer space 13 using heat transmission while 142 air-supply, it can be to avoid frequent
Blowing to reefer space makes food therein become drying due to by wind, influences the storage quality of food.
The present embodiment additionally provides a kind of computer storage media 200, and Figure 10 is meter according to an embodiment of the invention
The schematic diagram of calculation machine storage medium 200, the computer storage media 200 preserve computer program 201, and computer program
The place equipment of computer storage media 200 is caused to execute the refrigeration control side of the refrigerator of any of the above-described embodiment when 201 operation
Method.The place equipment of wherein computer storage media 200 is refrigerator 100, can execute any of the above-described embodiment by refrigerator 100
Refrigerator refrigeration control method.
The computer storage media 200 of the present embodiment can be that (electrically erasable is read-only to be deposited for such as flash memory, EEPROM
Reservoir), the electronic memory of EPROM, hard disk or ROM etc.Computer storage media 200 has for executing the above method
In any method and step computer program 201 memory space.These computer programs 201 can be from one or more
It reads or is written in computer program product in this one or more computer program product.These computer programs produce
Product include such as hard disk, the program code carrier of compact-disc (CD), storage card or floppy disk etc.Computer storage media 200
Place equipment operation above computer program 201 when, each step in the method for foregoing description can be executed.
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 derive 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 other all these variations or modifications.