CN101370399A

CN101370399A - Refrigerator and method of operating a refrigerator

Info

Publication number: CN101370399A
Application number: CNA200680052787XA
Authority: CN
Inventors: 金洙凊; 辛钟玟; 李守源; 金铁焕; 权永喆; 孙久永
Original assignee: LG Electronics Inc
Current assignee: LG Electronics Inc
Priority date: 2006-02-15
Filing date: 2006-09-27
Publication date: 2009-02-18
Anticipated expiration: 2026-09-27
Also published as: KR20070082188A; KR101284592B1; CN101374428A; CN101375120B; CN101375120A; CN101370399B; CN101375115A; CN101371088A; CN101371091A; CN101371090A

Abstract

The invention discloses a refrigerator and a method of operating the same. The refrigerator includes a liquid, cool air supplied to supercool the liquid, and a preventing means for preventing the liquid from existing as a solid phase, and a method of operating the refrigerator. The preventing means is at least one of an energy generator for supplying energy to the liquid supplied with the cool air to maintain the liquid in the supercooled state, a restricting member for interrupting the motion of the liquid, and a heater for converting the liquid converted into a solid phase into the liquid.

Description

The method of refrigerator and operation refrigerator

Technical field

The present invention relates to the method for a kind of refrigerator and operation refrigerator; And relate more specifically to a kind of refrigerator with the cold feed device such as distributor, and the method for operating described refrigerator, described refrigerator can prevent that the liquid such as water from freezing, producing subcooled liquid, prevent and limiting freezing of subcooled liquid and remove and freeze.

Background technology

Cross the liquid of cold expression such as water and do not change solid into, but remain on the high temperature phase---promptly even be lower than the liquid phase of the phase transition temperature that changes to solid.Water droplet can be cold excessively when nature.In addition, water or beverage once in a while can be cold excessively in general refrigerator.Disclosed freezing method of Japanese laid-open patent communique S59-151834 and the disclosed freezing method of Japanese laid-open patent communique 2001-086967 and refrigerator will be crossed cold principle and be applied to refrigerator.Electric field or magnetic field act on the food in the refrigerator, thereby food can remain below the supercooled state of phase transition temperature.The disclosed electrostatic field facture proposition of international patent publication WO/98/41115 is polytype to can be used for making food to cross electrode structure cold and that thaw.

Fig. 1 illustrates the disclosed structure chart that comprises the refrigerator of distributor of Korean laid-open patent gazette 2001-0107286.Refrigerator 100 comprises distributor 120 on refrigerating chamber door 110.Distributor 120 has action bars 140 and bearing 150 on outlet port unit 130.

Fig. 2 illustrates the disclosed structure chart that comprises the refrigerator of distributor of Korean laid-open patent gazette 2003-0050929.Refrigerator 200 comprises distributor 220 on refrigerating-chamber door 210.

Fig. 3 is the structure chart that another example of the refrigerator that comprises distributor is shown.Refrigerator 300 comprises refrigerating chamber 310 and refrigerating chamber 320.Ice machine 330 is installed in the refrigerating chamber 310, and distributor 350 is installed on the refrigerating chamber door 340.Pipeline 360 forms water is supplied to ice machine 330 and distributor 350, and is connected to the external water source (not shown).Pipeline 360 is provided with first valve 370, filter 380 and second valve 390.First valve, 370 control water are from the supply of external water source to refrigerator 300, and 380 pairs of water of filter filter, and second valve, 390 control water are supplied to ice machine 330 and distributor 350.On the other hand, first valve 370 and second valve 390 are by the control module (not shown) control of refrigerator 300.Pipeline 360 comprises the pipeline 361 that is used for water is supplied to distributor 350.The water of pipeline 361 of flowing through cools off under the heat exchange action of carrying out with refrigerating chamber 310, and discharges through the outlet 362 of piping 361 or the outlet 351 of distributor 350.

Fig. 4 and Fig. 5 are the structure charts that the distributor of the disclosed refrigerator of Korean laid-open patent gazette 2005-0051977 is shown.Distributor 400 is installed on the refrigerating chamber door that is full of heat guard 410, and comprises water tank 430.Water tank 430 by carrying out heat exchange with refrigerating chamber side 440 with water cooling.Heat guard 410 is filled between water tank 430 and the refrigerating chamber side 440 to carry out heat exchange.On the other hand, distributor 400 comprises based on the heater 450 of water tank 430 at the opposition side of refrigerating chamber side 440.Heater 450 is used to control the water temperature of water tank 430.

Fig. 6 and Fig. 7 are the structure charts that the distributor of the disclosed refrigerator of Korean laid-open patent gazette 2005-0051977 is shown.Distributor 600 is installed on the refrigerating chamber door 620 that is full of heat guard 610, and comprises water tank 630.Water tank 630 by carrying out heat exchange with refrigerating chamber side 640 with water cooling.In addition, distributor 600 comprises based on the heater 650 of water tank 630 at the opposition side of refrigerating chamber side 640.Heater 650 is used to control the water temperature of water tank 630, or melts owing to the water that does not use distributor 600 to freeze for a long time.On the other hand, distributor 600 comprises the temperature sensor 660 that is used for this operation.Water tank 630 comprises groove 670, can mounting temperature sensor 660 on the groove 670.

Yet the conventional equipment that is used to cool off is not provided for producing the equipment of subcooled liquid, be used for by the equipment of subcooled liquid manufacturing ice slurry, be used to the equipment that prevents that the subcooled liquid of storing from crossing the equipment of cold releasing and being used to recover cold releasing.

In addition, in the distributor of conventional refrigerator, heater is used for anti-sealing to be freezed.If water is frozen, frozen state is removed by heater.As a result, being used in the refrigerator reduced the temperature rising of the water of temperature.

Summary of the invention

Technical problem

The purpose of this invention is to provide the method for a kind of refrigerator and operation refrigerator, it can produce subcooled liquid, prevents and the freezing of confined liquid or subcooled liquid, and removes freezing of described subcooled liquid.

Another object of the present invention provides the method for a kind of refrigerator and operation refrigerator, and it needn't use heater just can prevent the freezing of water in the distributor.

Another purpose of the present invention provides the method for a kind of refrigerator and operation refrigerator, and it can prevent the freezing of water in the distributor by the phase transition temperature that reduces water.

Also method that purpose provides a kind of refrigerator and operates refrigerator of the present invention, it can recover the cold releasing of mistake of subcooled liquid.

A further object of the present invention provides the method for a kind of refrigerator and operation refrigerator, and it can sensing and the cold releasing of mistake that recovers subcooled liquid.

Another object of the present invention provides the method for a kind of refrigerator and operation refrigerator, and it can prevent the cold releasing of mistake of subcooled liquid.

Another purpose of the present invention provides the method for a kind of refrigerator and operation refrigerator, and it can prevent the cold releasing of mistake of subcooled liquid by the motion that limits described subcooled liquid.

Also method that purpose provides a kind of refrigerator and operates refrigerator of the present invention, it can produce subcooled liquid and make the ice slurry by described subcooled liquid.

A further object of the present invention provides the method for a kind of refrigerator and operation refrigerator, and it can be by using cold releasing recovery device or crossing cold releasing preventing device and make subcooled liquid or ice slurry.

Technical scheme

In order to realize above-mentioned purpose of the present invention, provide a kind of refrigerator at this, comprising: liquid; Cold air, described cold air are supplied so that described liquid is cold excessively; And anti-locking apparatus, described anti-locking apparatus is used to prevent that described liquid from existing with solid phase.The cold excessively implication of liquid is comprised make liquid to cross cold and/or keep the supercooled state of described liquid at this.This expression subcooled liquid can generate by distinct device or in other parts of refrigerator.

In another aspect of the present invention, described anti-locking apparatus be used for energy be supplied to the liquid that is supplied with cold air with described liquid-retentive at the power generator of supercooled state, be used to interrupt at least a of the limiting member of motion of described liquid and heater that the described liquid that is used for changing solid phase into changes liquid into.Thisly be configured to produce subcooled liquid, prevent and the freezing of confined liquid or subcooled liquid, and remove freezing of described subcooled liquid.

Aspect another, described refrigerator further comprises power generator of the present invention, described power generator be used for energy be supplied to described liquid with utilize cold air make described liquid cross cold and with described liquid-retentive in supercooled state.Preferably, described power generator comprises the electrode that is used to supply electric energy.

Of the present invention also aspect one, described anti-locking apparatus is restraint device at least a that is used for that heat acted on the heater of described liquid and is used to interrupt the motion of described liquid.

Aspect another, described refrigerator further comprises sensor of the present invention, described sensor be used for the described liquid of sensing state variation and with described heater collaborative work.

In another aspect of the present invention, described refrigerator further comprises the door of the outlet with described liquid.By this structure, the present invention can be applicable to the door of general refrigerator, especially comprises the door of the refrigerator of distributor.

According to a further aspect of the invention, provide a kind of refrigerator, comprising at this: the locker room, described locker room is used to supply cold air; Door, described door are used to open and close described locker room; Pipeline, described pipeline are arranged on described door place and have the outlet that is used for discharge water, and described ducted water temperature is reduced by the cold air of described locker room; And power generator, described power generator is arranged on the described pipeline, is used for supplying energy so that water is cold excessively.As mentioned above, cross cold expression and reduced phase transition temperature.The phase transition temperature of water reduces by the energy supply, prevents from thus to freeze.Energy is supplied to reduce the phase transition temperature of water.Preferably, for the ease of using, energy is with the form supply of electric field.In addition, energy also can be with magnetic field or hyperacoustic form supply.

Also aspect one, described power generator comprises the electrode that is used to form electric field of the present invention.

Aspect another, described refrigerator comprises the water tank that is arranged on the described pipeline, and power generator is supplied to described water tank with energy of the present invention.

In another aspect of the present invention, described power generator has the shape of the described pipeline in cover part.

Aspect another, described pipeline is by covering in the inner heat guard of described door of the present invention.

Aspect another, described locker room is a refrigerating chamber of the present invention.

Also aspect one, the opposition side of the outlet of described pipeline is connected to external water source, and in described pipeline, water is discharged from the bottom supply of described power generator and by the outlet that is arranged on described power generator top of the present invention.By this structure, water is expelled to described outlet from described distributor under the pressure effect of described external water source.

According to another aspect of the present invention, provide a kind of refrigerator, comprising: the locker room, described locker room is used to supply cold air; Door, described door are used to open and close described locker room; Storage box, described storage box is arranged on described reveal, is used to store subcooled liquid; Sensor, described sensor is used for the state variation of the described subcooled liquid of sensing; And heater, described heater be used to supply heat to described storage box and with described sensor synergism work.By this structure, the releasing of supercooled state can recover by the sensor sensing and by heater.For example, can the serviceability temperature sensor.Become phase transition temperature (for example, 0 ℃) if temperature sensor senses has been the temperature of cold liquid, then subcooled liquid is considered to change into solid phase.When having served as cold liquid and externally changing solid phase under the power effect, occur when the energy supply stops because of the energy power failure, perhaps when the refrigerator non-normal working, cold releasing will occurring when wrong with the device of keeping supercooled state when being used for supplying energy.

Aspect another, described refrigerator comprises power generator of the present invention, and described power generator is used for energy is supplied to described subcooled liquid to keep supercooled state.

Aspect another, described refrigerator comprises the box body that is installed in described door place of the present invention, and described storage box is arranged in the described box body.

Of the present invention also aspect one, electrode at least a that described box body comprises described heater, described sensor and is used for energy is supplied to described subcooled liquid.

In another aspect of the present invention, described refrigerator comprises the pipeline that is connected to described outer side of door from described storage box.By this structure, the present invention can be applied to the dispensing arrangement of general refrigerator.

Aspect another, described refrigerator comprises limiting member of the present invention, and described limiting member is arranged on described storage box place, is used to interrupt the motion of described subcooled liquid.This being configured to externally prevents the supercooled state releasing under the percussion.

According to a further aspect of the invention, provide a kind of refrigerator, comprising at this: the locker room, described locker room is used to supply cold air; Door, described door are used to open and close described locker room; Storage box, described storage box is arranged on described reveal, is used to store subcooled liquid; And limiting member, described limiting member is arranged on described storage box place, is used to interrupt the motion of described subcooled liquid.The impact that this structure is opened and closed by door prevents the releasing of described supercooled state.

Also aspect one, described limiting member is divided into a plurality of parts with the subcooled liquid in the described storage box of the present invention.This structure limits the motion of whole subcooled liquid, and prevents the releasing of described supercooled state by the surface tension of described a plurality of parts.

In another aspect of the present invention, described limiting member comprises at least one plate, and described plate is used to interrupt the motion of described subcooled liquid.At this, described plate needs not to be flat.

Of the present invention aspect another, described limiting member is to be used to exert pressure device with the motion of interrupting described subcooled liquid.

And aspect one, described refrigerator comprises heater, described heater is used for heat is acted on described storage box of the present invention.By this structure, the liquid of crossing cold releasing can be reverted to liquid phase.

Aspect another, described refrigerator comprises pipeline of the present invention, and described pipeline is connected to the outside of described door from described storage box.

In another aspect of the present invention, described refrigerator comprises power generator, and described power generator is used for energy is supplied to described subcooled liquid to keep described supercooled state.

Described liquid needs not to be water.Energy can be supplied to liquid or subcooled liquid with the form in electric field or magnetic field.Yet when as long as energy maintains liquid phase under the phase transition temperature of liquid, energy just can be supplied with polytype (for example, ultrasonic wave, magnetron etc.).Must recognize, the present invention includes the energy of these types.

According to a further aspect of the invention, provide a kind of method of operating refrigerator, comprising: be used for liquid-retentive at the first step of supercooled state to prevent to freeze; Second step of freezing that is used for the described liquid of sensing; And be used for by using heater to remove the third step that freezes of described liquid.

Aspect another, in described first step, can prevent freezing of described liquid of the present invention by supply cold air and energy.

Also aspect one, the amount of institute's supplying energy is according to the amount change of supply cold air of the present invention.

In another aspect of the present invention, in described first step, motion that can be by limiting described liquid and supply cold air and energy prevent freezing of liquid.

Beneficial effect

According to the present invention, the method for described refrigerator and described operation refrigerator can produce subcooled liquid, prevent and the freezing of confined liquid or subcooled liquid, and removes freezing of described subcooled liquid.

According to the present invention, the method for described refrigerator and described operation refrigerator just can prevent that under the situation of not using heater the water in the distributor from freezing.

According to the present invention, the method for described refrigerator and described operation refrigerator can prevent that the water in the distributor from freezing by the phase transition temperature that reduces water.

According to the present invention, the method for described refrigerator and described operation refrigerator can be recovered the cold releasing of mistake of described subcooled liquid.

According to the present invention, the method for described refrigerator and described operation refrigerator can sensing and the cold releasing of mistake that recovers described subcooled liquid.

According to the present invention, the method for described refrigerator and described operation refrigerator can prevent the cold releasing of mistake of described subcooled liquid.

According to the present invention, the method for described refrigerator and described operation refrigerator can prevent the cold releasing of mistake of described subcooled liquid by the motion that limits described subcooled liquid.

According to the present invention, the method for described refrigerator and described operation refrigerator can produce subcooled liquid and make the ice slurry by described subcooled liquid.

According to the present invention, the method for described refrigerator and described operation refrigerator can be by comprising cold releasing recovery device or crossing cold releasing preventing device and make subcooled liquid or ice slurry.

According to the present invention, the method for described refrigerator and described operation refrigerator can be controlled the state of subcooled liquid, keeps the state of subcooled liquid, and makes the ice slurry.

Description of drawings

Fig. 1 illustrates the disclosed structure chart that comprises the refrigerator of distributor of Korean laid-open patent gazette 2001-0107286;

Fig. 2 illustrates the disclosed structure chart that comprises the refrigerator of distributor of Korean laid-open patent gazette 2003-0050929;

Fig. 3 is the structure chart that another example of the refrigerator that comprises distributor is shown;

Fig. 4 and Fig. 5 are the structure charts that the distributor of the disclosed refrigerator of Korean laid-open patent gazette 2005-0051977 is shown;

Fig. 6 and Fig. 7 are the structure charts that the distributor of the disclosed refrigerator of Korean laid-open patent gazette 2005-0051977 is shown;

Fig. 8 is the schematic diagram that subcooled liquid constructed in accordance or ice slurry are shown;

Fig. 9 is the figure that illustrates according to an example of experimental result of the present invention;

Figure 10 is the structure chart that illustrates according to the refrigerator of an embodiment of the invention;

Figure 11 is the structure chart that refrigerator according to another implementation of the invention is shown;

Figure 12 is the structure chart that illustrates according to the refrigerator of another embodiment of the present invention;

Figure 13 is the structure chart that illustrates according to the refrigerator of another embodiment of the present invention;

Figure 14 illustrates the block diagram that operation is used to make subcooled liquid or ices the method for the equipment of starching according to the present invention;

Figure 15 to Figure 17 is the example view that the structure in electric field action zone is shown;

Figure 18 illustrates the structure chart that comprises the refrigerator that prevents supercooling apparatus according to of the present invention;

Figure 19 is the block diagram that the method for the refrigerator of operating Figure 18 is shown;

Figure 20 is the structure chart that illustrates according to an example of the refrigerator that comprised cold decontrol of the present invention;

Figure 21 illustrates the block diagram of operation according to the method for the refrigerator that comprised cold decontrol of the present invention;

Figure 22 is the structure chart that illustrates according to another example of the refrigerator that comprised cold decontrol of the present invention;

Figure 23-the 25th illustrates the structure chart according to the example of limiting member of the present invention; And

Figure 26 is the figure that illustrates according to another example of experimental result of the present invention.

The specific embodiment

Describe in detail according to the method for refrigerator of the present invention below with reference to accompanying drawing with the described refrigerator of operation.

At first, with the method for explaining according to manufacturing subcooled liquid of the present invention or ice slurry.

Fig. 8 is the schematic diagram that subcooled liquid constructed in accordance or ice slurry are shown.With reference to figure 8, be arranged between the electrode 40 as the liquid 41 of crossing cold object.When the state of supply cold air 42, by use AC power supplies 43 with electric field action on liquid 41.Therefore, liquid 41 does not freeze and to be lower than its phase transition temperature (for example, water is 0 ℃ under 1atm pressure) cold excessively.Be known that energy supply such as electric field makes the hydrogen bond rupture of the water that contains aerobic and hydrogen, makes water not freeze thus.When external force acts on subcooled liquid by phasing commutator 44, for example when electrical forces acts on subcooled liquid by ignition, supercooled state (though this expression energy supply is interrupted keeping supercooled state in the back at the fixed time) power that is applied that energy by acting on subcooled liquid or the energy that has acted on subcooled liquid are kept is disturbed.Therefore, form freezing nuclear, and subcooled liquid changes solid phase rapidly into, produce the ice slurry thus.At this, the temperature of subcooled liquid is a phase transition temperature from the supercooled state temperature change.Ice pulpous state attitude after the phase transformation is subjected to temperature (temperature of the supercooled state) influence of the preceding subcooled liquid of phase transformation.If the temperature of supercooled state lower (near phase transition temperature), the ice quantitative change in the ice slurry gets less relatively (sludge ice slurry).The use of this differences affects user's mouthfeel and ice slurry.The temperature of supercooled state can be controlled by temperature and amount that adjusting is supplied to the cold air of subcooled liquid.When the temperature of cold air and amount were constant, the temperature of subcooled liquid can be controlled (hereinafter with reference Fig. 9 explanation) by the amount of regulating the energy of being supplied.Can regulate by adjuster 45 by the amount that electrode 40 is supplied to the electric-field intensity of subcooled liquid or energy by AC power supplies 43.The intensity of electric field can be controlled by regulating the curtage of being supplied.

Now experimental result of the present invention is made an explanation.

1. the installation of electrode and container

Two width and length all are that the electrode of 100mm is installed with the interval of 200mm.The container that contains 1L water is with predetermined being disposed between two electrodes.

2. cross cold

Above equipment is put into temperature is-6.8 ℃ refrigerator, and with the electric field action of 40kHz and 2kV in described equipment.In case equipment is put into refrigerator, just with electric field action in described equipment.After cold fully excessively, by making subcooled liquid change solid phase into as the 1500V electronic lighter ignition.Its result is shown in Figure 26.

Fig. 9 is an example, the especially figure that concerns between the temperature of Zuo Yong energy and subcooled liquid that experimental result is shown.As shown in Figure 9, the temperature of energy that is acted on and subcooled liquid illustrates and is almost linear proportionate relationship.This is illustrated in the given environment temperature, and the design temperature of subcooled liquid can be controlled from the energy of power generator effect by regulating.

Figure 10 is the structure chart that illustrates according to the refrigerator of an embodiment of the invention.Refrigerator 60 comprises refrigerating chamber 61 and refrigerating chamber 62.On refrigerating chamber 61, be formed with refrigerating chamber door 61a, and on refrigerating chamber 62, be formed with refrigerating-chamber door 62b.Form from the pipeline 63 of external water source supply water at refrigerating chamber 61 places.On pipeline 63, be formed with power generator or electric field action zone 64.End place at pipeline 63 is formed with the outlet 63a that is used for discharge water.In addition, be formed with at the other end place of pipeline 63 and be used to control water is supplied to electric field action zone 64 from the external water source (not shown) valve 63b.Outlet 63a is connected to the outlet port unit 65 that is formed on the refrigerating chamber door 61a, and is formed with the action bars 66 that is used to open and close outlet 63a in outlet port unit 65.Ignition 67 as phasing commutator is installed between outlet 63a and the electric field action zone 64.At this, cold air produces by the kind of refrigeration cycle 68 that is arranged on refrigerator 60 bottoms, and is supplied to refrigerating chamber 61 by the tap 68a that is connected to kind of refrigeration cycle 68.Cold air can be by forming the refrigerant pipe (not shown) supply around refrigerating chamber 61.

Below with reference to Figure 14 the method for operation according to refrigerator of the present invention made an explanation.

When valve 63b opened, water was supplied to pipeline 63 from the external water source (not shown).The cold air of water and refrigerating chamber 61 carries out heat exchange, and descends cold in the energy of the type of electric field in power generator or electric field action zone under the situation that does not produce phase transformation.When the user by using the cup (not shown) during pressing operation bar 66, subcooled water is discharged by outlet 63a.When subcooled water was discharged, subcooled water produced phase transformation under the operation effect of ignition 67.The subcooled water that is contained in the cup changes solid phase into, makes the ice slurry thus.This operation is by the control module control of the control kind of refrigeration cycle 68 of refrigerator.

Figure 11 is the structure chart that refrigerator according to another implementation of the invention is shown.The refrigerator that is different from Fig. 6, refrigerator 70 further comprises common ice machine 79.Refrigerator 70 comprises refrigerating chamber 71 and refrigerating chamber 72.On refrigerating chamber 71, be formed with refrigerating chamber door 71a, and on refrigerating chamber 72, be formed with refrigerating-chamber door 72b.Be formed with from the pipeline 73 of external water source supply water at refrigerating chamber 71 places.On pipeline 73, be formed with power generator or electric field action zone 74.Place, end at pipeline 73 is formed with the outlet 73a that is used for discharge water.On pipeline 73, also be formed with in addition and be used to control water and be supplied to the valve 73b of pipeline 73 and be used to control the valve 73c that water is supplied to electric field action zone 74 and ice machine 79 from the external water source (not shown).Outlet 73a is connected to the outlet port unit 75 that is formed on the refrigerating chamber door 71a, and is formed with button 75a, 75b and the 75c that is used for optionally discharging ice, subcooled water or ice slurry at the place, top of outlet port unit 75.Place, bottom in outlet port unit 75 is formed with bearing 75d, and cup 75e is placed on the bearing 75d.Ignition 77 as phasing commutator is installed between outlet 73a and the electric field action zone 74.At this, cold air produces by the kind of refrigeration cycle 78 that is arranged on place, refrigerator 70 bottoms, and is supplied to refrigerating chamber 71 by the tap 78a that is connected to kind of refrigeration cycle 78.Cold air can be by forming the refrigerant pipe (not shown) supply around refrigerating chamber 71.

When valve 73b opened, water was supplied to pipeline 73 from the external water source (not shown).By operation valve 73c water is supplied to power generator or electric field action zone 74 and ice machine 79.Water is being made as ice under the effect of the cold air of refrigerating chamber 71 in ice machine 79, and the effect that does not produce the electric field type energy in electric field action zone 74 under the situation of phase transformation was descended cold.When the user cup 75e is placed on bearing 75d goes up and selector button 75a, 75b and 75c in one the time, ice, subcooled liquid or ice slurry are supplied to cup 75e by outlet port unit 75.If the user operates phasing commutator or ignition 77, will provide the ice slurry; Otherwise will provide subcooled liquid.Conceivable is though subcooled liquid is supplied to cup 75e by pipeline 73, can forms freezing nuclear and subcooled liquid and change the ice slurry into.Yet according to the present invention, although be supplied to other containers by the subcooled liquid that uses power generator to make from power generator, subcooled liquid can not change the ice slurry into according to its generation condition.That is, phasing commutator is used to promote that the manufacturing and the generation of icing slurry are used to ice the freezing nuclear that slurry is made.As phasing commutator being installed in substituting on the pipeline, can also be set to form freezing nuclear by bearing 73e by the potential energy (for example, 20cm can change according to crossing cool condition) of the subcooled liquid of outlet 73a discharge.Described operation is controlled by the control module of refrigerator 70.

Figure 12 is the structure chart that illustrates according to the refrigerator of another embodiment of the present invention.Refrigerator 80 is included in the water tank 81 in the electric field action zone.Except energy is to be supplied to the water tank 81 by use electrode 82, refrigerator 80 is the same with the refrigerator of Fig. 6.The situation that directly acts on the subcooled water on the pipeline with energy is compared, and can stably produce and supply subcooled water (with reference to Figure 14).

Figure 13 is the structure chart that illustrates according to the refrigerator of another embodiment of the present invention.Except electric field action zone 94 was formed among the refrigerating-chamber door 92a, refrigerator 90 was the same with the refrigerator of Fig. 6.In this case, the tap 92c that is provided with near electric field action zone 94 is used for and will be supplied to electric field action zone 94 by damper 92b from the cold air of refrigerating chamber side 91 supplies, and described tap 92c can form water temperature is reduced to and be lower than phase transition temperature (with reference to Figure 14).By this structure, the present invention can be applied to comprise the refrigerator of distributor in refrigerating chamber.In this case, the electric field action zone preferably is formed on the refrigerating chamber side.When if the electric field action zone is positioned at the refrigerating chamber side, the pipeline of subcooled water will prolong.Described longer pipe road will be difficult to control subcooled water and ice slurry.

Figure 15 to Figure 17 is the example view that the structure in electric field action zone is shown.In Figure 15, pipeline 2 passes electric field action zone 1, and electrode 3a is formed on the outside of pipeline 2.In Figure 16, pipeline 2 passes electric field action zone 1, and electrode 3b is formed in the flexible pipe that forms pipeline 2.In Figure 17, electric field action zone 1 is formed on the pipeline 2, and water tank 4 is formed in the zone 1, and electrode 3c forms the side of water tank 4.Preferably, the electric field action zone is made by electrical insulator.

Figure 18 illustrates the structure chart that comprises the refrigerator that prevents supercooling apparatus according to of the present invention.Refrigerator 50 comprises refrigerating chamber 51 and is used to open and close the refrigerating chamber door 52 of described refrigerating chamber 51.Refrigerating chamber door 52 is full of heat guard 53.Pipeline 54 is formed on refrigerating chamber door 52 places and is connected to external water source.On pipeline 54, be formed with the valve 55 that is used to control water and flows into, be used to hold water and carry out the water tank 56 of heat exchange, the electrode 57 that is used to reduce the phase transition temperature of water tank 56, the temperature sensor 58 of temperature that is used for sensing water tank 56 and the outlet 54a that is used for discharge water with refrigerating chamber 51.When user's pressing operation bar 59, outlet 54a opens.

The method of the refrigerator of operation Figure 18 is described below with reference to Figure 19.

When valve 55 was opened, water was supplied to pipeline 54 from external water source.Preferably, water externally is supplied to water tank 56 under the pressure effect at water source.Being contained in water in the water tank 56 carries out heat exchange by the cold air with refrigerating chamber 51 and is cooled off.The temperature of cooling water is by temperature sensor 58 sensings.Although refrigerating chamber door 52 is full of heat guard 53,, therefore can carry out heat exchange because the interval between water tank 56 and refrigerating chamber 51 is less.Also can remove the heat guard in heat exchange area.When the user when the cup pressing operation bar 59, outlet 54a open and with cold feed to cup.When water is contained in the water tank 56 because of not using for a long time, when refrigerating chamber 51 when low-down temperature works long hours, perhaps when refrigerator 50 non-normal workings, even pressing operation bar 59, the water of water tank 56 is frozen and can not discharge.According to the present invention,, the electric field type energy is acted on water tank 56 by electrode 57 in order to reduce phase transition temperature.Therefore, under above situation, water can't freeze.Energy can be supplied under user's order all the time by electrode 57 supplies, or supply when the water temperature by temperature sensor 58 sensings reaches about 0 ℃.This operation is controlled by the control module of the kind of refrigeration cycle 62 of control refrigerator 50.Refrigerator 50 may further include heater 63.

Figure 20 is the structure chart that illustrates according to an example of the refrigerator that comprised cold decontrol of the present invention.Refrigerator 50 comprises refrigerating chamber 510 and is used to open and close the refrigerating chamber door 520 of described refrigerating chamber 510.Refrigerating chamber door 520 is full of heat guard 530.Pipeline 540 is formed on refrigerating chamber door 520 places and is connected to external water source.On pipeline 54, be formed with the valve 550 that is used for controlling water and flows into, be used for holding water and with refrigerating chamber 510 carry out heat exchange water tank 560, be used to act on the electric field type energy and maintain the electrode 570 of supercooled state, the temperature sensor 580 that is used for the temperature of sensing water tank 560, the outlet 540a that is used for discharge water and heater 560a with water with water tank 560, wherein ought be contained in the cold releasing of mistake of the water in the water tank 560, and when subcooled water changed solid phase into, described heater was used for solid phase is returned to liquid phase.When user's pressing operation bar 590, outlet 540a opens.

Below with reference to Figure 21 the method for operation according to refrigerator of the present invention described.

When valve 550 was opened, water was supplied to pipeline 540 from external water source.Preferably, water externally is supplied to water tank 560 under the pressure effect at water source.Be contained in water in the water tank 560 and carry out heat exchange by cold air and cooled off, and under electric field type energy, maintain supercooled state by electrode 570 supplies with refrigerating chamber 510.Although refrigerating chamber door 520 is full of heat guard 530, because the interval between water tank 560 and refrigerating chamber 510 is less, so can carry out heat exchange.Also can remove the heat guard in heat exchange area.When the user when the cup pressing operation bar 590, outlet 540a open and with cold feed to cup.On the other hand, when when opening or closing refrigerating chamber door 520 rambunctiously and act on external force, when the supply electric current to electrode 570 occurs when wrong, perhaps when refrigerator 500 non-normal workings, the cold excessively of subcooled liquid is disengaged, and subcooled liquid changes solid phase into.When having served as cold releasing, subcooled liquid will change the ice slurry into, and the temperature of ice slurry will change to phase transition temperature (for example, under the 1atm being 0 ℃).Temperature is by temperature sensor 580 sensings and be sent to the control module that is used to control kind of refrigeration cycle 500a.Therefore, control module makes the ice slurry revert to liquid state by operate heater 560a, and makes water cold excessively by operation electrode 570.In case of necessity, control module can be operated heater 560a, does not make ice slurry return to liquid state but the freezing of anti-stagnant ice slurry.This is because the ice slurry can be discharged by pipeline 540.

Figure 22 is the structure chart that illustrates according to another example of the refrigerator that comprised cold decontrol of the present invention.Refrigerator 700 comprises refrigerating chamber 710 and is used to open and close the refrigerating chamber door 720 of described refrigerating chamber 710.In refrigerating chamber door 720, be formed with box body 760a.Water tank 760 is arranged among the described box body 760a.In box body 760a, be formed with heater 760a, electrode 770 and temperature sensor 780.Water tank 760 can connect maybe can be not attached to external water source.If water tank 760 is not connected to external water source, when water tank 760 was arranged on box body 760a, the valve (not shown) must be connected to water the outlet 740a of pipeline 740.On the other hand, the cold airduct 790 that is used for cold air is supplied to water tank 760 can be installed in refrigerating chamber 710.Figure 23 to Figure 25 is the structure chart that illustrates according to the example of limiting member of the present invention.The limiting member of Figure 23 is made by form a plurality of parts 910 in water tank 900.Described a plurality of part 910 is used to limit the motion of whole subcooled liquid, and prevents the releasing of supercooled state by the surface tension of using subcooled liquid.The bottom of a plurality of parts 910 does not contact the bottom of water tank 900, thereby subcooled liquid can merge together in water tank 900.The limiting member of Figure 24 is made by the plate 920 that is formed for interrupting the motion of subcooled liquid in water tank 900.The limiting member of Figure 25 is made by the mass member 930 that is formed for exerting pressure to interrupt the motion of subcooled liquid in water tank 900.

Claims

1. refrigerator comprises:

Liquid;

Cold air, described cold air are supplied so that described liquid is cold excessively; And

Anti-locking apparatus, described anti-locking apparatus is used to prevent that described liquid from existing with solid phase.

2. refrigerator as claimed in claim 1, wherein said anti-locking apparatus be used for energy be supplied to the liquid that is supplied with cold air with described liquid-retentive at the power generator of supercooled state, be used to interrupt at least a of the limiting member of motion of described liquid and heater that the described liquid that is used for changing solid phase into changes liquid into.

3. refrigerator as claimed in claim 1 further comprises power generator, described power generator be used for energy be supplied to described liquid with utilize cold air make described liquid cross cold and with described liquid-retentive in supercooled state.

4. refrigerator as claimed in claim 3, wherein said anti-locking apparatus are restraint device at least a that is used for that heat is applied to the heater of described liquid and is used to interrupt the motion of described liquid.

5. refrigerator as claimed in claim 4 further comprises sensor, described sensor be used for the described liquid of sensing state variation and with described heater collaborative work.

6. refrigerator as claimed in claim 1 further comprises the door of the outlet with described liquid.

7. refrigerator comprises:

The locker room, described locker room is used to supply cold air;

Door, described door are used to open and close described locker room;

Pipeline, described pipeline are arranged on described door place and have the outlet that is used for discharge water, and described ducted water temperature is reduced by the cold air of described locker room; And

Power generator, described power generator is arranged on the described pipeline, is used for supplying energy so that water is cold excessively.

8. refrigerator as claimed in claim 7, wherein said power generator comprises the electrode that is used to form electric field.

9. refrigerator as claimed in claim 7 comprises the water tank that is arranged on the described pipeline, and wherein said power generator is supplied to described water tank with energy.

10. refrigerator as claimed in claim 8, wherein said power generator have the shape of a part that covers described pipeline.

11. refrigerator as claimed in claim 7, wherein said pipeline is by covering in the inner heat guard of described door.

12. refrigerator as claimed in claim 7, wherein said locker room is a refrigerating chamber.

13. refrigerator as claimed in claim 7, the opposition side of the outlet of wherein said pipeline is connected to external water source, and in described pipeline, and water is discharged from the outlet on the bottom supply of described power generator and the top by being arranged on described power generator.

14. a refrigerator comprises:

The locker room, described locker room is used to supply cold air;

Door, described door are used to open and close described locker room;

Storage box, described storage box are arranged on a side of described door, are used to store subcooled liquid;

Sensor, described sensor is used for the state variation of the described subcooled liquid of sensing; And

Heater, described heater be used to supply heat to described storage box and with described sensor synergism work.

15. refrigerator as claimed in claim 14 comprises power generator, described power generator is used for energy is supplied to described subcooled liquid to keep supercooled state.

16. refrigerator as claimed in claim 14 comprises the box body that is installed in described door place, described storage box is arranged in the described box body.

17. electrode at least a that refrigerator as claimed in claim 16, wherein said box body comprise described heater, described sensor and be used for energy is supplied to described subcooled liquid.

18. refrigerator as claimed in claim 14 comprises the pipeline that is connected to the outside of described door from described storage box.

19. refrigerator as claimed in claim 14 comprises the limiting member that is arranged on described storage box place, is used to interrupt the motion of described subcooled liquid.

20. a refrigerator comprises:

The locker room, described locker room is used to supply cold air;

Door, described door are used to open and close described locker room;

Storage box, described storage box are arranged on a side of described door, are used to store subcooled liquid; And

Limiting member, described limiting member are arranged on described storage box place, are used to interrupt the motion of described subcooled liquid.

21. refrigerator as claimed in claim 20, wherein said limiting member is divided into a plurality of parts with the subcooled liquid in the described storage box.

22. refrigerator as claimed in claim 20, wherein said limiting member comprises at least one plate, and described plate is used to interrupt the motion of described subcooled liquid.

23. refrigerator as claimed in claim 20, wherein said limiting member are to be used to exert pressure device with the motion of interrupting described subcooled liquid.

24. refrigerator as claimed in claim 20 comprises heater, described heater is used for heat is acted on described storage box.

25. refrigerator as claimed in claim 20 comprises pipeline, described pipeline is connected to the outside of described door from described storage box.

26. refrigerator as claimed in claim 20 comprises power generator, described power generator is used for energy is supplied to described subcooled liquid to keep supercooled state.

27. a method of operating refrigerator comprises:

Be used for liquid-retentive at the first step of supercooled state to prevent to freeze;

Second step of freezing that is used for the described liquid of sensing; And

Be used for by using heater to remove the third step that freezes of described liquid.

28. method as claimed in claim 27 wherein in described first step, can prevent freezing of described liquid by supply cold air and energy.

29. method as claimed in claim 28, wherein the amount of institute's supplying energy changes according to the amount of supply cold air.

30. method as claimed in claim 27, wherein in described first step, motion that can be by limiting described liquid and supply cold air and energy prevent freezing of described liquid.