CN107588587A - Freeze component, defreezing method, refrigeration plant and storage medium - Google Patents

Abstract

The present invention proposes a kind of freezing component, defreezing method, refrigeration plant and computer-readable recording medium, wherein component is freezed, including：Refrigerated container；Refrigerating channel, one end of refrigerating channel are connected to freezer evaporator, and the other end of refrigerating channel is connected to the first air door；Defrosting passage isolates setting with refrigerating channel, one end of defrosting passage extends to compressor bin, the other end of defrosting passage is connected to the second air door, wherein, when refrigerated container is used to thaw, the first air door is closed, second door opening, when refrigerated container is used to freeze, the first door opening, the second air door is closed.Pass through technical scheme, single defrosting room need not be set, improve space availability ratio, improve the usage experience of user, thermal current caused by compressor can enter refrigerated container to be thawed, compared with setting the mode of heat conducting material directly by defrosting passage via the second air door, structure setting is simple, and heating efficiency is high.

Description

Freeze component, defreezing method, refrigeration plant and storage medium

Technical field

The present invention relates to art of refrigeration units, in particular it relates to a kind of freezing component, a kind of defreezing method, a kind of refrigeration Equipment and a kind of computer-readable recording medium.

Background technology

In correlation technique, specially it is provided with heat conducting material in refrigerator body and encloses the defrosting room to be formed, outside defrosting room Enclose has air flow spaces between refrigerator body inwall, passes through heat after the thermal current air inlet flowing space caused by compressor Conductive material imports defrosting room, to realize the defrosting to frozen food, still suffers from following defect：

(1) need to set single defrosting room, take the space of refrigerating chamber in refrigerator, on the one hand without the use of when The waste of space resources is caused, on the other hand, when refrigerating chamber needs to store more food, influences the usage experience of user；

(2) thermal current is conducted into by defrosting room by heat conducting material, conduction efficiency is low, in order to lift heat transfer efficiency, needs More complicated heat transfer structure is set, it is high to prepare cost.

The content of the invention

It is contemplated that at least solves one of technical problem present in prior art or correlation technique.

In view of this, it is an object of the present invention to provide a kind of material transferring container.

It is another object of the present invention to provide a kind of cooking apparatus.

To achieve these goals, the technical scheme of first aspect present invention provides a kind of freezing component, suitable for system Cool equipment, freezing component include compressor bin and refrigerating chamber, are provided with compressor in compressor bin, compressor is connected to condensation Device, condenser are connected to freezer evaporator, and freezer evaporator is used to freeze to refrigerating chamber, and refrigerating chamber is provided with backboard, carries on the back The first air door and the second air door are respectively arranged with plate；Freezing component also includes：Refrigerated container, can dismantle be correspondingly arranged in it is cold Freeze indoor；Refrigerating channel, the outside back of refrigerating chamber is arranged at, one end of refrigerating channel is connected to freezer evaporator, refrigeration The other end of passage is connected to the first air door；Defrosting passage, is arranged at the outside back of refrigerating chamber, and isolates with refrigerating channel and set Put, one end of defrosting passage extends to compressor bin, and the other end of defrosting passage is connected to the second air door, by the heat of compressor Air-flow is imported in refrigerated container from the second air door, wherein, when refrigerated container is used to thaw, the first air door is closed, the second air door Open, when refrigerated container is used to freeze, the first door opening, the second air door is closed.

In the technical scheme, by setting the first air door and the second air door, cold airflow energy respectively on refrigerating chamber backboard Enough to be flowed into through the first air door in refrigerating chamber, to freeze to refrigerated container, thermal current can enter in refrigerating chamber through the second air door, with Refrigerated container is heated, the effect of refrigerated container is to hold frozen food, and then realizes the defrosting of frozen food, on the one hand, no Need to set single defrosting room, when needing to thaw, using specified refrigerated container as Defrost vessel, improve space utilization Rate, the usage experience of user is improved, on the other hand, by setting defrosting passage and the second air door, hot gas caused by compressor Stream can enter refrigerated container to be thawed, the side with setting heat conducting material directly by defrosting passage via the second air door Formula is compared, and structure setting is simple, and heating efficiency is high.

Specifically, Refrigerating container can be non-tight casing, or drawer, pass through the refrigerating chamber that is arranged on of dismounting Inside, it is convenient to clean being pulled down cleaning when freezing in refrigerator, refrigerating channel is used for the transmission of cold airflow, one end connection refrigerating chamber Evaporator be used to receive the cold airflow that evaporator distributes, cold airflow can be passed through the first wind by the other end and the connection of the first air door Door, which is sent in refrigerated container, to be used to freeze, and passes through defrosting passage and separately positioned, the cold air in refrigerating channel of refrigerating channel The mutual non-conducting of thermal current in stream and defrosting passage, reduces the loss of cold airflow and thermal current, and defrosting passage is used for heat The transmission of air-flow, one end and compressor bin are connected for the thermal current for receiving compressor release, and the other end and the second air door are connected Thermal current can be sent in refrigerated container by the second air door and be used to thaw, the first air door when refrigerated container is used to thaw Close, cold airflow stops transmission, and the second air door is opened, and hot gas is streamed in refrigerated container, carries out defrosting pattern, when freezing is held First door opening when device is used to freeze, cold air flow through the first air door and are sent in refrigerated container, and the second air door is closed, thermal current Stop transmission, carry out frozen mode.

In addition, refrigerating channel is isolated with defrosting passage by thermal insulation layer.

In the above-mentioned technical solutions, it is preferable that also include：Controller, it is respectively connecting to the first air door and the second air door；The One blower fan, controller is connected to, and is correspondingly arranged with the first air door；Second blower fan, is connected to controller, and with the second air door pair It should set, wherein, in the first door opening, controller controls the first fan operation, in the second door opening, controller control Make the second fan operation.

In the technical scheme, by the way that controller is electrically connected with the first air door, the second air door respectively, to realize control the The opening and closing of one air door, the second air door, by the way that controller is electrically connected with the first blower fan and the second blower fan respectively, realize control the The rotation of one blower fan and the second blower fan, it is correspondingly arranged by the first blower fan and the first air door, the first blower fan driving cold airflow flows into Refrigerated container, it is correspondingly arranged by the second blower fan and the second air door, the second blower fan driving thermal current flows into refrigerated container, realizes knot Freeze operation, control process is realized by controller, on the one hand, the synthetic operation of the first air door and the first blower fan is realized, and The synthetic operation of second air door and the second blower fan, on the other hand, the separation for realizing process of refrigerastion and the process that freezes control, and then Improve operational efficiency.,

Wherein, blower fan can be centrifugal blower, or axial flow blower.

In any of the above-described technical scheme, it is preferable that also include：Filter, it is filled with the finger in defrosting air channel Positioning is put, and filter is used to filter the thermal current for entering defrosting air channel.

In the technical scheme, by setting filter, and the specified location in defrosting air channel is filled in, in thermal current stream During filtered device, the filtering to thermal current is realized, suspension, particulate and miscellaneous dirt in air is effectively filtered out, avoids understanding Pollution of the thermal current to the frozen food of refrigerated container during jelly.

Specifically, defrosting passage includes the first passage longitudinally transmitted and horizontal second connected with first passage is logical Road, the bottom of first passage connect with compressor bin, and the outlet of second channel can turn on air door, and specified location can be , can also be in second channel in one passage, it is preferable that be arranged in the less passage of area of section.

In any of the above-described technical scheme, it is preferable that filter is in PP filter cores, micropore filter element and active carbon filter core Any one.

In the technical scheme, when filter is PP filter cores, there is higher filter efficiency, resistance to acids and bases is good, makes With long lifespan, can effectively remove suspension, particulate and the miscellaneous dirt in air, when filter is micropore filter element, have compared with Big pollutant holding capability and capacity, when filter is active carbon filter core, has and decolourize, go the function that eliminates the unusual smell.

In any of the above-described technical scheme, it is preferable that refrigerating channel is set relative to defrosting passage close to refrigerating chamber；First Air door is arranged at the lower section of the second air door, wherein, condenser is arranged in defrosting passage.

In the technical scheme, by the way that refrigerating channel is set relative to defrosting passage close to refrigerating chamber, corresponding refrigeration The length of passage is shorter, and for refrigeration plant, refrigerating function is basic function, and then can effectively avoid the stream of cold airflow Lose, lift refrigerating efficiency, the length of corresponding defrosting passage is longer, and when not thawed in refrigerated container, the second air door is closed just It is dispersed into time by cabinet exterior in air in thermal current in defrosting passage, avoids refrigeration plant from overheating, passes through the first air door It is arranged on the lower section of the second air door, under refrigeration mode, when cold airflow is sent in refrigerated container via the first air door, cold airflow tool There is larger density, gradually overflow refrigerated container since container bottom, under defrosting pattern, thermal current transmits via the second air door To refrigerated container, there is less density from due to thermal current, frozen food surface is gradually covered since container top, is entered The defrosting of row frozen food, and constantly radiated during condenser working, it is arranged on by condenser in defrosting passage, adds defrosting Hot gas streaming in passage, and then lift defrosting efficiency..

In any of the above-described technical scheme, it is preferable that refrigerating chamber also includes：Longitudinal baffle and horizontal baffle, longitudinal baffle Refrigerating chamber is divided into sub- refrigerating chamber side by side, is provided with horizontal baffle in every sub- refrigerating chamber, horizontal baffle is by sub- refrigerating chamber It is divided into multiple reefer spaces, multiple reefer spaces include at least one first reefer space and the second reefer space；Freezing is held Device is freezer drawer, and freezer drawer is respectively arranged in the first reefer space and the second reefer space, wherein, the first reefer space Backboard on be respectively arranged with the first air door and the second air door.

In the technical scheme, refrigerating chamber is divided into by sub- refrigerating chamber side by side by longitudinal baffle, and by cold in son Freeze indoor setting horizontal baffle and sub- refrigerating chamber is divided into multiple reefer spaces, on the one hand, be easy to user by different food point It is placed in different reefer spaces, avoids mutual taint of odour between food, on the other hand, can will at least according to user's use demand One reefer space sets the first air door and the second air door respectively, has freezing and the system in the space of defrosting function simultaneously to realize It is standby, further improve the usage experience of user.

In addition, being arranged to freezer drawer by refrigerated container, user can be facilitated to take out out the food in reefer space Come, be easy to user to take, multiple reefer spaces are respectively set to the first reefer space and the second reefer space, pass through the first freezing First air door and the second air door are set on the backboard in space, and the first reefer space has defrosting and refrigeration concurrently, works as needs simultaneously During to food thawing, the first reefer space is controlled to carry out defrosting operation by program setting, when defrosting operation need not be carried out, the One reefer space still can work for storing food in cooling mode.

The technical scheme of second aspect of the present invention additionally provides a kind of defreezing method, suitable for appointing for first aspect present invention Freezing component described in a technical scheme of anticipating, including：When specified refrigerated container is in freezing state, detect whether to receive Thaw and instruct；When detection receives defrosting instruction, to specifying the object in refrigerated container to perform operation of thawing.

In the technical scheme, when specified refrigerated container is in freezing state, for storing frozen food, pass through inspection Whether survey receives defrosting instruction, is easy to system to judge whether that needs carry out defrosting operation, when detection receives defrosting instruction, System sends instruction, and to specifying refrigerated container to perform operation of thawing, the frozen food in refrigerated container starts to thaw, a side Face, for specified refrigerated container, while there is freezing and the function of thawing, improve space availability ratio, improve user's Usage experience, on the other hand, the separation for realizing process of refrigerastion and the process that freezes control, so as to improve operational efficiency.

In the above-mentioned technical solutions, when detection receives defrosting instruction, to specifying the object in refrigerated container to perform solution Freeze operation, specifically include following steps：When receiving defrosting instruction, the first air door is closed in control, and controls unlatching compressor With the second air door, wherein, the first air door and the second air door may be contained within specifying the back of refrigerated container, hot gas caused by compressor Stream is entered by the second air door specifies refrigerated container.

In the technical scheme, receive thaw instruction when, close the first air door by controlling, cold air stops via the One air door is entered in refrigerated container, stops refrigeration in refrigerated container, and compressor and the second air door, compressor are opened by controlling Start working and produce thermal current, entered by the second air door of unlatching in refrigerated container, the frozen food in refrigerated container is opened Begin to thaw, by setting the second air door, defrosting air channel, thermal current caused by compressor are formed between the second air door and compressor bin Refrigerated container to be thawed can be entered via the second air door, on the one hand, with setting heat conducting material directly by defrosting passage Mode compare, structure setting is simple, and heating efficiency is high, and on the other hand, control process is simple, and reliability is high..

In any of the above-described technical scheme, receive thaw instruction when, the first air door is closed in control, and controls unlatching the Two air doors, in addition to：When the first air door is closed in control, the first blower fan corresponding to the first air door is closed in control；Opened in control During the second air door, the second blower fan corresponding to the second air door is opened in control.

In the technical scheme, when closing the first air door by controlling, the first blower fan corresponding to the first air door is closed in control, First blower fan driving cold airflow flows into refrigerated container, is correspondingly arranged by the second blower fan and the second air door, the second blower fan driving heat Air-flow flows into refrigerated container, realizes operation of freezing, realizes the synthetic operation of the first air door and the first blower fan, and the second air door With the synthetic operation of the second blower fan.

The technical scheme of third aspect present invention provides a kind of refrigeration plant, including processor, and processor is used to perform The step of the defreezing method such as any one of the technical scheme of above-mentioned second aspect is realized during the computer program stored in memory Suddenly.

In the technical scheme, because refrigeration plant is used for the defreezing method of above-mentioned any one technical scheme, thus have There are whole beneficial effects of above-mentioned defreezing method, do not repeat one by one herein, in addition, refrigeration plant includes processor, processor is used The step of any one defreezing method being realized when the computer program stored in memory is performed, by the processing of processor, Refrigeration plant has higher automaticity.

Wherein, refrigeration plant is refrigerator or refrigerator-freezer.

The embodiment of the fourth aspect of the present invention proposes a kind of computer-readable recording medium, is stored thereon with computer Program, realized when computer program is executed by processor such as the defreezing method of any one of the technical scheme of above-mentioned second aspect Step.

The additional aspect and advantage of the present invention will become obvious in following description section, or the practice by the present invention Recognize.

Brief description of the drawings

Fig. 1 shows the structural representation of freezing component according to an embodiment of the invention；

Fig. 2 shows the structural representation of freezing component according to another embodiment of the invention；

Fig. 3 shows the schematic flow diagram of defreezing method according to an embodiment of the invention；

Fig. 4 shows the schematic flow diagram of defreezing method according to another embodiment of the invention；

Fig. 5 shows the schematic block diagram of refrigeration plant according to an embodiment of the invention.

Wherein, the corresponding relation in Fig. 1 and Fig. 2 between reference and component names is：

102 compressors, 104 first air doors, 106 second air doors, 108 refrigerating channels, 110 defrosting passages, 112 freezings are held Device, 114 first blower fans, 116 second blower fans, 118 filters, 202 longitudinal baffles, 204 horizontal baffles, 206 first freezings are empty Between, 208 second reefer spaces.

Embodiment

It is below in conjunction with the accompanying drawings and specific real in order to which the above objects, features and advantages of the present invention can be more clearly understood that Mode is applied the present invention is further described in detail.It should be noted that in the case where not conflicting, the implementation of the application Feature in example and embodiment can be mutually combined.

Many details are elaborated in the following description to facilitate a thorough understanding of the present invention, still, the present invention may be used also To be different from other modes described here using other to implement, therefore, protection scope of the present invention is not by described below Specific embodiment limitation.

Embodiment one：

As shown in figure 1, freezing component according to an embodiment of the invention, suitable for refrigeration plant, freezes component bag The storehouse of compressor 102 and refrigerating chamber are included, compressor 102 is provided with the storehouse of compressor 102, compressor 102 is connected to condenser, condensation Device is connected to freezer evaporator, and freezer evaporator is used to freeze to refrigerating chamber, and refrigerating chamber is provided with backboard, distinguishes on backboard It is provided with the first air door 104 and the second air door 106；Freezing component also includes：Refrigerated container 112, it can dismantle and be correspondingly arranged in In refrigerating chamber；Refrigerating channel 108, is arranged at the outside back of refrigerating chamber, and one end of refrigerating channel 108 is connected to freezing chamber evaporator Device, the other end of refrigerating channel 108 are connected to the first air door 104；Defrosting passage 110, the outside back of refrigerating chamber is arranged at, and Isolate setting with refrigerating channel 108, one end of defrosting passage 110 extends to the storehouse of compressor 102, the other end of defrosting passage 110 The second air door 106 is connected to, the thermal current of compressor 102 is imported in refrigerated container 112 from the second air door 106, wherein, When refrigerated container 112 is used to thaw, the first air door 104 is closed, and the second air door 106 is opened, and is used to freeze in refrigerated container 112 When, the first air door 104 is opened, and the second air door 106 is closed.

In this embodiment, by setting the first air door 104 and the second air door 106, cold air respectively on refrigerating chamber backboard Stream can be flowed into refrigerating chamber through the first air door 104, and to freeze to refrigerated container 112, thermal current can enter through the second air door 106 Enter in refrigerating chamber, to be heated to refrigerated container 112, the effect of refrigerated container 112 is to hold frozen food, and then realizes freezing food The defrosting of product, on the one hand, single defrosting room need not be set, when needing to thaw, using specified refrigerated container 112 as solution Freeze container, improve space availability ratio, improve the usage experience of user, on the other hand, by setting defrosting passage 110 and the Two air doors 106, thermal current caused by compressor 102 can enter and treat directly by defrosting passage 110 via the second air door 106 The refrigerated container 112 of defrosting, compared with setting the mode of heat conducting material, structure setting is simple, and heating efficiency is high.

Specifically, Refrigerating container can be non-tight casing, or drawer, pass through the refrigerating chamber that is arranged on of dismounting Inside, it is convenient to clean being pulled down cleaning when freezing in refrigerator, refrigerating channel 108 is used for the transmission of cold airflow, and one end connection is cold The evaporator for freezing room is used to receive the cold airflow that evaporator distributes, and the other end and the connection of the first air door 104 can circulate cold air Cross the first air door 104 and be sent in refrigerated container 112 and be used to freeze, set by the separation of defrosting passage 110 and refrigerating channel 108 Put, the mutual non-conducting of thermal current in the cold airflow and defrosting passage 110 in refrigerating channel 108, reduce cold airflow and heat The loss of air-flow, defrosting passage 110 are used for the transmission of thermal current, and one end is connected with the storehouse of compressor 102 for receiving compressor 102 The thermal current of release, the other end and the second air door 106, which are connected, to be sent to refrigerated container by the second air door 106 by thermal current It is used to thaw in 112, when refrigerated container 112 is used to thaw, the first air door 104 is closed, and cold airflow stops transmission, the second air door 106 are opened, and hot gas is streamed in refrigerated container 112, carries out defrosting pattern, the first wind when refrigerated container 112 is used to freeze Door 104 is opened, and cold air flows through the first air door 104 and is sent in refrigerated container 112, and the second air door 106 is closed, and thermal current stops passing Send, carry out frozen mode.

In addition, refrigerating channel 108 is isolated with defrosting passage 110 by thermal insulation layer.

Embodiment two：

Freezing component according to another embodiment of the invention, except with all technical characteristic in embodiment one Outside, in addition to controller, the first air door 104 and the second air door 106 are respectively connecting to；First blower fan 114, is connected to controller, And it is correspondingly arranged with the first air door 104；Second blower fan 116, controller is connected to, and is correspondingly arranged with the second air door 106, its In, when the first air door 104 is opened, controller controls the first blower fan 114 to run, when the second air door 106 is opened, controller control The second blower fan 116 is made to run.

In this embodiment, by the way that controller is electrically connected with the first air door 104, the second air door 106 respectively, to realize control Make the opening and closing of the first air door 104, the second air door 106, by by controller respectively with the first blower fan 114 and the second blower fan 116 Electrical connection, the rotation of the first blower fan 114 of control and the second blower fan 116 is realized, it is right by the first blower fan 114 and the first air door 104 It should set, the first blower fan 114 driving cold airflow flows into refrigerated container, is set by the way that the second blower fan 116 and the second air door 106 are corresponding Put, the second blower fan 116 driving thermal current flows into refrigerated container, realizes operation of freezing, control process, a side are realized by controller Face, realize the synthetic operation of the first air door 104 and the first blower fan 114, and the association of the second air door 106 and the second blower fan 116 With operation, on the other hand, the separation for realizing process of refrigerastion and the process that freezes controls, and then improves operational efficiency.

Wherein, blower fan can be centrifugal blower, or axial flow blower.

Embodiment three：

Freezing component according to still a further embodiment, except with all technical characteristic in embodiment two Outside, in addition to filter 118, it is filled with the specified location in defrosting air channel, filter 118 is used to thaw to entering The thermal current in air channel is filtered, and filter 118 is PP filter cores.

In this embodiment, by setting filter 118, and the specified location in defrosting air channel is filled in, in thermal current When flowing through filter 118, the filtering to thermal current is realized, suspension, particulate and miscellaneous dirt in air is effectively filtered out, avoids Pollution of the thermal current to the frozen food of refrigerated container when thawing.

Specifically, defrosting passage 110 include the first passage longitudinally transmitted and connected with first passage horizontal the Two passages, the bottom of first passage connect with compressor bin, and the outlet of second channel can turn on air door, and specified location can be with , can also be in second channel in first passage, it is preferable that be arranged in the less passage of area of section.

Specifically, filter 118 can also be any one in micropore filter element and active carbon filter core, it is corresponding can To there is more different embodiments.

Example IV：

Freezing component according to still another embodiment of the invention, except with all technical characteristic in embodiment three Outside, refrigerating channel 108 is set relative to defrosting passage 108 close to refrigerating chamber；First air door 104 is arranged at the second air door 106 Lower section, wherein, condenser is arranged in defrosting passage 108.

In this embodiment, it is corresponding by the way that refrigerating channel 108 is set relative to defrosting passage 110 close to refrigerating chamber The length of refrigerating channel 108 is shorter, and for refrigeration plant, refrigerating function is basic function, and then can effectively avoid cold air The loss of stream, refrigerating efficiency being lifted, the length of corresponding defrosting passage 110 is longer, when not thawed in refrigerated container 112, the Two air doors 106, which are closed, is easy to thermal current in defrosting passage 110 to be dispersed into time by cabinet exterior in air, avoids refrigeration plant Overheat, is arranged on the lower section of the second air door 106 by the first air door 104, and under refrigeration mode, cold airflow is via the first air door 104 When being sent in refrigerated container 112, cold airflow has larger density, and refrigerated container 112 is gradually overflowed since container bottom, Under defrosting pattern, thermal current is sent in refrigerated container 112 via the second air door 106, because thermal current has less density, The gradual covering frozen food surface since container top, carries out the defrosting of frozen food, constantly radiates during condenser working, leads to Cross condenser to be arranged in defrosting passage 110, add the hot gas streaming in defrosting passage 110, and then lift defrosting efficiency.

Embodiment five：

As shown in Fig. 2 freezing component according to still another embodiment of the invention, except with the whole in example IV Outside technical characteristic, refrigerating chamber also includes：Refrigerating chamber is divided into simultaneously by longitudinal baffle 202 and horizontal baffle 204, longitudinal baffle 202 The sub- refrigerating chamber of row, horizontal baffle 204 is provided with every sub- refrigerating chamber, sub- refrigerating chamber is divided into multiple by horizontal baffle 204 Reefer space, multiple reefer spaces include at least one reefer space 208 of first reefer space 206 and second；Refrigerated container 112 For freezer drawer, freezer drawer is respectively arranged in the first reefer space 206 and the second reefer space 208, wherein, the first freezing The first air door 104 and the second air door 106 are respectively arranged with the backboard in space 206.

In this embodiment, refrigerating chamber is divided into by sub- refrigerating chamber side by side by longitudinal baffle 202, and by cold in son Freeze indoor setting horizontal baffle 204 and sub- refrigerating chamber is divided into multiple reefer spaces, on the one hand, be easy to user by different food Divide and be placed in different reefer spaces, avoid mutual taint of odour between food, on the other hand, can be near according to user's use demand A few reefer space sets the first air door 104 and the second air door 106 respectively, has freezing and defrosting function simultaneously to realize The preparation in space, further improve the usage experience of user.

In addition, being arranged to freezer drawer by refrigerated container 112, user can be facilitated to pull the food in reefer space Out, it is easy to user to take, multiple reefer spaces are respectively set to the first reefer space 206 and the second reefer space 208, pass through First air door 104 and the second air door 106 are set on the backboard of first reefer space 206, and the first reefer space 206 has solution concurrently simultaneously Jelly and refrigeration, when needing to food thawing, the first reefer space 206 is controlled to carry out defrosting operation by program setting, When that need not carry out defrosting operation, the first reefer space 206 still can work for storing food in cooling mode.

Embodiment six：

As shown in figure 3, defreezing method according to an embodiment of the invention, including：Step 302, freezing is being specified to hold When device is in freezing state, detect whether to receive defrosting instruction；Step 304, when detection receives defrosting instruction, to specifying Object in refrigerated container performs operation of thawing.

In this embodiment, when specified refrigerated container is in freezing state, for storing frozen food, detection is passed through Defrosting instruction whether is received, is easy to system to judge whether that needs carry out defrosting operation, when detection receives defrosting instruction, is System sends instruction, and to specifying refrigerated container to perform operation of thawing, the frozen food in refrigerated container starts to thaw, a side Face, for specified refrigerated container, while there is freezing and the function of thawing, improve space availability ratio, improve user's Usage experience, on the other hand, the separation for realizing process of refrigerastion and the process that freezes control, so as to improve operational efficiency.

In the above-described embodiments, when detection receives defrosting instruction, to specifying the object in refrigerated container to perform defrosting Operation, specifically includes following steps：Receive thaw instruction when, control close the first air door, and control open compressor with Second air door, wherein, the first air door and the second air door may be contained within specifying the back of refrigerated container, thermal current caused by compressor Entered by the second air door and specify refrigerated container.

In this embodiment, when receiving defrosting instruction, the first air door is closed by controlling, cold air stops via first Air door is entered in refrigerated container, stops refrigeration in refrigerated container, by controlling unlatching compressor and the second air door, compressor to open Beginning work produces thermal current, is entered by the second air door of unlatching in refrigerated container, the frozen food in refrigerated container starts Thaw, by setting the second air door, defrosting air channel, thermal current energy caused by compressor are formed between the second air door and compressor bin Refrigerated container to be thawed directly enough is entered, on the one hand, with setting heat conducting material via the second air door by defrosting passage Mode is compared, and structure setting is simple, and heating efficiency is high, and on the other hand, control process is simple, and reliability is high..

In any of the above-described embodiment, when receiving defrosting instruction, the first air door is closed in control, and controls unlatching second Air door, in addition to：When the first air door is closed in control, the first blower fan corresponding to the first air door is closed in control；The is opened in control During two air doors, the second blower fan corresponding to the second air door is opened in control.

In this embodiment, when closing the first air door by controlling, the first blower fan corresponding to the first air door is closed in control, the One blower fan driving cold airflow flows into refrigerated container, is correspondingly arranged by the second blower fan and the second air door, the second blower fan driving hot gas Stream flows into refrigerated container, and realization is freezed operation, realizes the synthetic operation of the first air door and the first blower fan, and the second air door and The synthetic operation of second blower fan.

Embodiment seven：

As shown in Fig. 4 and Fig. 1, defreezing method according to still another embodiment of the invention, except with embodiment five All technical characteristic outside, including：

Step S402, user select defrosting pattern；

When user selects defrosting pattern to be, following steps are performed：

Step S404, the refrigerated container in defrosting prefecture enter defrosting pattern；The first air door is closed in step S406, control, and The second air door and compressor are opened in control；The first blower fan corresponding to the first air door is closed in step S408, control, and control opens second Second blower fan corresponding to air door；Step S410, thermal current caused by compressor are entered cold by filter by the second air door Freeze container to be thawed.

When user select defrosting pattern for it is no when, execution following steps：

Step S412, defrosting pattern do not start, and defrosting prefecture refrigerated container is used to freeze；Step S414, control close the Two air doors, and control and open the first air door；The second blower fan corresponding to the second air door is closed in step S416, control, and control opens the First blower fan corresponding to one air door；Step S418, the cold wind that refrigerating chamber introduces enter refrigerated container system by the first air door It is cold.

In this embodiment, when user selects defrosting defrosting pattern, when result is to be, refrigerator is opened defrosting pattern and carried out Thaw routine, first the first air door is closed in control, and then the cold wind in refrigerating chamber can not continue through the first air door and enter freezing In container, the second air door and compressor are opened in control, and compressor starts produce thermal current, and surrounding produces thermal current, passes through second Air door, thermal current can be entered in refrigerated container via the second air door, and the first blower fan corresponding to the first air door, system are closed in control Atmosphere draught-free in cold passage, refrigerated container stop refrigeration, control the second blower fan corresponding to the second air door to open, defrosting passage Interior thermal current is constantly conveyed to the second air door, and thermal current caused by compressor is entered by filter by the second air door Thawed into refrigerated container, when user selects defrosting pattern, when result is no, refrigerator defrosting pattern does not start, and thaws The refrigerated container in prefecture is used to freeze, and first the second air door is closed in control, and then thermal current cannot pass through first caused by compressor Air door is entered in refrigerated container, control the first air door of unlatching, and the cold wind in refrigerating chamber enters freezing by the first air door to be held In device, controlling and close the second blower fan corresponding to the second air door, the atmosphere draught-free in defrosting passage, refrigerated container stops thawing, The first blower fan corresponding to the first air door is controlled to open, the cold wind in refrigerating channel constantly conveys to the first air door, in refrigerating chamber Cold wind enter in refrigerated container and freezed by the first air door.

Embodiment eight：

Fig. 5 shows the schematic block diagram of the computer equipment of the embodiment of the embodiment of the present disclosure.

As shown in figure 5, according to the computer equipment 50 of the embodiment of the embodiment of the present disclosure, including memory 502, processor 504 and it is stored in the computer program that can be run on the memory 502 and on the processor 504, wherein memory 502 It can be connected between processor 504 by bus, the processor 504 is used to perform the computer stored in memory 502 The step of defreezing method described in example is performed as described above is realized during program.

Embodiment nine：

Computer-readable recording medium according to still another embodiment of the invention, except with the whole in embodiment seven Outside technical characteristic, for above-mentioned refrigeration plant, computer program (instruction) is stored thereon with, it is characterised in that：Computer journey The step of sequence (instruction) realizes any one defreezing method in above-described embodiment when being executed by processor.

In this embodiment, because computer-readable recording medium is used for above-mentioned refrigeration plant, thus there is above-mentioned system Whole beneficial effects of cool equipment, are stored thereon with computer program (instruction), and computer program (instruction) is executed by processor The step of Shi Shixian above-mentioned defreezing methods, thus whole beneficial effects with above-mentioned defreezing method.

Technical scheme is described in detail above in association with accompanying drawing, by technical scheme, passes through control The first air door is closed, and controls and opens the second air door, starts to thaw in refrigerated container, opens the first air door by controlling, and control System closes the second air door, and refrigerated container starts to freeze, and realizes refrigerated container while has concurrently and freezes and defrosting function, adopts during defrosting With the thermal current of compressor, energy consumption is saved.

In the present invention, term " first ", " second ", " the 3rd " are only used for the purpose described, and it is not intended that instruction Or imply relative importance；Term " multiple " then refers to two or more, is limited unless otherwise clear and definite.Term " installation ", The term such as " connected ", " connection ", " fixation " all should be interpreted broadly, for example, " connection " can be fixedly connected or can Dismantling connection, or be integrally connected；" connected " can be joined directly together, and can also be indirectly connected by intermediary.For this For the those of ordinary skill in field, the concrete meaning of above-mentioned term in the present invention can be understood as the case may be.

In description of the invention, it is to be understood that the instruction such as term " on ", " under ", "left", "right", "front", "rear" Orientation or position relationship are based on orientation shown in the drawings or position relationship, are for only for ease of the description present invention and simplification is retouched State, rather than instruction or imply signified device or unit there must be specific direction, with specific azimuth configuration and operation, It is thus impossible to it is interpreted as limitation of the present invention.

In the description of this specification, the description of term " one embodiment ", " some embodiments ", " specific embodiment " etc. Mean to combine at least one reality that specific features, structure, material or the feature that the embodiment or example describe are contained in the present invention Apply in example or example.In this manual, identical embodiment or reality are not necessarily referring to the schematic representation of above-mentioned term Example.Moreover, description specific features, structure, material or feature can in any one or more embodiments or example with Suitable mode combines.

The preferred embodiments of the present invention are these are only, are not intended to limit the invention, for those skilled in the art For member, the present invention can have various modifications and variations.Any modification within the spirit and principles of the invention, being made, Equivalent substitution, improvement etc., should be included in the scope of the protection.

Claims (11)

1. one kind freezing component, suitable for refrigeration plant, the freezing component includes compressor bin and refrigerating chamber, the compressor Compressor is provided with storehouse, the compressor is connected to condenser, and the condenser is connected to freezer evaporator, the freezing Room evaporator is used to freeze to the refrigerating chamber, it is characterised in that

The refrigerating chamber is provided with backboard, and the first air door and the second air door are respectively arranged with the backboard；

The freezing component also includes：

Refrigerated container, it can dismantle and be correspondingly arranged in the refrigerating chamber；

Refrigerating channel, is arranged at the outside back of the refrigerating chamber, and one end of the refrigerating channel is connected to the refrigerating chamber and steamed Device is sent out, the other end of the refrigerating channel is connected to first air door；

Defrosting passage, the outside back of the refrigerating chamber is arranged at, and isolates setting with the refrigerating channel, the defrosting passage One end extend to the compressor bin, the other end of the defrosting passage is connected to second air door, by the compression The thermal current of machine is imported in the refrigerated container from second air door,

Wherein, when the refrigerated container is used to thaw, first air door is closed, second door opening, described cold Freeze container for when freezing, first door opening, second air door to be closed.

2. freezing component according to claim 1, it is characterised in that also include：

Controller, it is respectively connecting to first air door and second air door；

First blower fan, the controller is connected to, and is correspondingly arranged with first air door；

Second blower fan, the controller is connected to, and is correspondingly arranged with second air door,

Wherein, in first door opening, the controller controls first fan operation, is opened in second air door Qi Shi, the controller control second fan operation.

3. freezing component according to claim 2, it is characterised in that also include：

Filter, it is filled with and is used in the specified location in the defrosting air channel, the filter to entering the solution The thermal current for freezing air channel is filtered.

4. freezing component according to claim 3, it is characterised in that

The filter is any one in PP filter cores, micropore filter element and active carbon filter core.

5. freezing component according to claim 3, it is characterised in that

The refrigerating channel is set relative to the defrosting passage close to the refrigerating chamber；

First air door is arranged at the lower section of second air door,

Wherein, the condenser is arranged in the defrosting passage.

6. freezing component according to claim 1, it is characterised in that the refrigerating chamber also includes：

The refrigerating chamber is divided into sub- refrigerating chamber side by side by longitudinal baffle and horizontal baffle, the longitudinal baffle, each described The horizontal baffle is provided with sub- refrigerating chamber, the sub- refrigerating chamber is divided into multiple reefer spaces, institute by the horizontal baffle Stating multiple reefer spaces includes at least one first reefer space and the second reefer space；

The refrigerated container is freezer drawer, and the freezer drawer is respectively arranged at first reefer space and described second cold Freeze in space,

Wherein, first air door and second air door are respectively arranged with the backboard of first reefer space.

A kind of 7. defreezing method, suitable for the freezing component as any one of claim 1 to 6, it is characterised in that bag Include：

When specified refrigerated container is in freezing state, detect whether to receive defrosting instruction；

When detection receives the defrosting instruction, operation of thawing is performed to the object in the specified refrigerated container.

8. defreezing method according to claim 7, it is characterised in that it is described when detection receives the defrosting instruction, Operation of thawing is performed to the object in the specified refrigerated container, specifically includes following steps：

When receiving the defrosting instruction, the first air door is closed in control, and is controlled and opened compressor and the second air door,

Wherein, first air door may be contained within the back of the specified refrigerated container, the compressor with second air door Caused thermal current enters the specified refrigerated container by second air door.

9. defreezing method according to claim 8, it is characterised in that described when receiving the defrosting instruction, control The first air door is closed, and controls and opens the second air door, in addition to：

When first air door is closed in control, the first blower fan corresponding to the first air door is closed in control；

When second air door is opened in control, the second blower fan corresponding to second air door is opened in control.

10. a kind of refrigeration plant, it is characterised in that the refrigeration plant includes processor, and the processor is used to perform storage Realized during the computer program stored in device as described in any one in claim 7-9 the step of defreezing method.

11. a kind of computer-readable recording medium, it is stored thereon with computer program (instruction), it is characterised in that：The calculating Realized when machine program (instruction) is executed by processor as described in any one in claim 7-9 the step of defreezing method.