CN107062755A - Refrigeration plant with ice-making compartment - Google Patents

Abstract

The invention provides a kind of refrigeration plant with ice-making compartment, including：Refrigeration evaporator, is correspondingly arranged with refrigerating chamber, for providing cold air to refrigerating chamber and ice-making compartment；Ice-making compartment air channel, the air inlet in ice-making compartment air channel extends to refrigeration evaporator, and the air outlet in ice-making compartment air channel extends to ice-making compartment；Ice making blower fan, is correspondingly arranged with ice-making compartment air channel, and the cold air that ice making blower fan is used to generate refrigeration evaporator imports ice-making compartment.Pass through technical scheme, the cold air for being generated refrigeration evaporator by ice making blower fan imports ice-making compartment, the length in ice-making compartment air channel can be reduced, improve the transmission efficiency of cold air, and then energy consumption is reduced, cost is saved, by setting ice making blower fan, lift the cold air for generating refrigeration evaporator and import the efficiency of ice-making compartment, and then lift ice making efficiency.

Description

Refrigeration plant with ice-making compartment

Technical field

The present invention relates to refrigeration technology field, in particular to a kind of refrigeration plant with ice-making compartment.

Background technology

In correlation technique, ice-making compartment can be connected with freezing air channel and refrigeration air channel respectively, be pacified inside freezing air channel Equipped with refrigerating evaporator and freezing blower fan, refrigeration evaporator and refrigeration blower fan are installed inside refrigeration air channel, freezing blower fan can The cold air freezed in air channel is delivered in the ice-making compartment and refrigerating chamber respectively, the cold air point that refrigeration blower fan will can be refrigerated in air channel Do not deliver in ice-making compartment and refrigerating chamber, to realize ice-making compartment ice making, still suffer from following technological deficiency：

(1) ice-making compartment and freezer evaporator distance are remote, and air channel is long, and cold air transmission efficiency is low；

(2) air channel insulation needs thicker air channel foam, takes refrigerator volume；

(3) ice-making compartment is connected with freezing air channel and refrigeration air channel respectively, complicated, prepares cost high.

The content of the invention

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

Therefore, it is an object of the present invention to provide a kind of refrigeration plant with ice-making compartment.

To achieve these goals, technical scheme provides a kind of refrigeration plant with ice-making compartment, including： Refrigeration evaporator, is correspondingly arranged with refrigerating chamber；Ice-making compartment air channel, the air inlet in ice-making compartment air channel extends to refrigeration evaporator, system The air outlet in icehouse air channel extends to ice-making compartment；Ice making blower fan, is correspondingly arranged with ice-making compartment air channel, and ice making blower fan is used for will refrigeration The cold air of evaporator generation imports ice-making compartment.

In the technical scheme, the cold air for being generated refrigeration evaporator by ice making blower fan and ice-making compartment air channel imports ice making Room, completes ice-making compartment ice making, realizes refrigerating chamber and shares evaporator with ice-making compartment, compared with individually setting evaporator, energy Enough reductions prepare cost and operation energy consumption, compared with by the way of freezing using freezer evaporator to ice-making compartment, can shorten wind Road stroke, lifts refrigerating efficiency, and then reduces energy consumption, simplifies air channel structure, saves cost, and by setting ice making blower fan, Lift the cold air for generating refrigeration evaporator and import the efficiency of ice-making compartment, and then lift ice making efficiency.

Wherein, ice-making compartment air channel can be opened in foaming layer, on the one hand, can be incubated, and on the other hand, saved ice making The space-consuming in room air channel, improves the space availability ratio of refrigeration plant.

In the above-mentioned technical solutions, it is preferable that ice making blower fan is arranged in ice-making compartment, and close to the air-out in ice-making compartment air channel Mouthful.

In the technical scheme, the cold air that refrigeration evaporator is generated is drawn into by ice making by the ice making blower fan in ice-making compartment Interior, realizes the ice making function of ice-making compartment, and ice making blower fan further increases cold air close to the air outlet in ice-making compartment air channel Transmission efficiency, and then ice making efficiency is lifted, energy consumption is reduced, cost is saved.

In addition, ice making blower fan can also be set close to ice machine, to lift ice making efficiency.

In any of the above-described technical scheme, it is preferable that ice making blower fan is arranged at entering for refrigeration evaporator and ice-making compartment air channel Between air port.

In the technical scheme, it will be refrigerated by the ice making blower fan between refrigeration evaporator and the air inlet in ice-making compartment air channel The cold air of evaporator generation is forced to import in ice-making compartment through ice-making compartment air channel, realizes the ice making function of ice-making compartment, on the one hand, with Ice making blower fan, which is located in ice-making compartment, to be compared, and the influence that the restricted ice fan of ice-making compartment refrigerating efficiency itself operating produces heat is smaller, On the other hand, the transmission efficiency of cold air is further increased.

In addition, ice making blower fan can also be arranged at ice-making compartment air inlet of air duct, it is connected with ice-making compartment air inlet of air duct, or It is arranged in ice-making compartment air channel, can further improves the wind-guiding efficiency of ice making blower fan, and then improve the refrigerating efficiency of ice-making compartment.

In any of the above-described technical scheme, it is preferable that also include：Refrigerating chamber air channel, the air inlet extension in refrigerating chamber air channel To refrigeration evaporator, the air outlet in refrigerating chamber air channel extends to refrigerating chamber；Blower fan is refrigerated, is correspondingly arranged with refrigerating chamber air channel, it is cold The cold air that hiding blower fan is used to generate refrigeration evaporator imports refrigerating chamber.

In the technical scheme, the cold air for being generated refrigeration evaporator by refrigerating blower fan is imported through refrigerating chamber air channel to be refrigerated Room, realizes the refrigerating function of refrigerating chamber, is conducive to shortening the stroke in refrigerating chamber air channel, lifts the refrigerating efficiency of refrigerating chamber.

In any of the above-described technical scheme, it is preferable that also include：First temperature sensor, is arranged in refrigerating chamber；Second Temperature sensor, is arranged in ice-making compartment；Controller, be respectively connecting to refrigeration blower fan, ice making blower fan, the first temperature sensor with Second temperature sensor, wherein, the temperature value control that controller is gathered according to the first temperature sensor refrigerates the operating of blower fan, And/or the operating of temperature control ice making blower fan that controller is gathered according to second temperature sensor.

In the technical scheme, by the first temperature sensor being arranged in refrigerating chamber, refrigerating chamber can be detected in real time Interior temperature, by the second temperature sensor being arranged in ice-making compartment, the temperature in ice-making compartment can be detected in real time, by dividing The controller of refrigeration blower fan, ice making blower fan, the first temperature sensor and second temperature sensor is not connected to, to control to refrigerate wind The operating of machine and ice making blower fan, the operating for the temperature control refrigerating blower fan that controller can be gathered according to the first temperature sensor, The operating of the temperature controlled refrigerating blower fan gathered according to second temperature sensor, realizes in refrigerating chamber and freezes in refrigeration and ice-making compartment Auto-control, when reaching design temperature in refrigerating chamber, controller control refrigeration blower fan is closed or turns down wind speed, refrigerates blower fan The transporting velocity of transporting cold-air or reduction cold air no longer into refrigerating chamber, when reaching design temperature in ice-making compartment, controller control Wind speed is turned down in refrigeration fan closing processed, the transporting velocity of refrigeration fan transporting cold-air or reduction cold air no longer into ice-making compartment, On the one hand, refrigeration plant intelligent level is lifted, on the other hand, energy consumption can be saved.

In any of the above-described technical scheme, it is preferable that also include：First MOD, is arranged at entering for refrigerating chamber air channel At air port, and it is connected to controller；Second MOD, is arranged at the air inlet in ice-making compartment air channel, and is connected to controller, Wherein, the MOD of temperature control first that controller is gathered according to the first temperature sensor is opened and closed, and/or controller is according to the The MOD of temperature control second opening and closing of two temperature sensors collection.

In the technical scheme, by being respectively connecting to the first MOD, the second MOD, the first temperature sensor With the controller of second temperature sensor, to control the opening and closing of the first MOD and the second MOD, controller can root The MOD of temperature control first opening and closing gathered according to the first temperature sensor, the temperature control gathered according to second temperature sensor The opening and closing of the second MOD is made, the auto-control of refrigeration and the interior refrigeration of ice-making compartment in refrigerating chamber is realized, reaches and set in refrigerating chamber When constant temperature is spent, controller controls the first MOD to close, and cold air is no longer imported into refrigerating chamber, setting is reached in ice-making compartment During temperature, controller controls the second MOD to close, and cold air is no longer imported into ice-making compartment, on the one hand, lifting refrigeration plant Intelligent level, on the other hand, can save energy consumption.

In addition, by setting the first MOD and the second MOD, it is possible to achieve will be refrigerated and evaporated by a blower fan The cold air of device generation is directed respectively into ice-making compartment and refrigerating chamber, and then reduces the setting quantity of refrigeration plant inner blower, on the one hand, Cost has been saved, on the other hand, the space availability ratio of refrigeration plant has been increased.

Specifically, refrigerating chamber air door (the first MOD) and ice-making compartment air door (the second MOD) can be opened simultaneously, Also it can simultaneously close off, can also open and close respectively, the operation of opening and closing relies primarily on the temperature of refrigerating chamber and ice-making compartment Sensor is controlled.

In any of the above-described technical scheme, it is preferable that also include：First air channel foam, is arranged on the air channel lid of refrigerating chamber It is adjacent with refrigeration evaporator on plate, the first refrigerating chamber air -return duct is opened up on the first air channel foam；Second air channel foam, is arranged on It is adjacent with refrigeration evaporator on air duct cover board, and be arranged at intervals with the first air channel foam, it is cold to open up second on the second air channel foam Hide room air -return duct.

In the technical scheme, by setting the first air channel foam and the second air channel to steep on the air duct cover board of refrigerating chamber Foam, and the first refrigerating chamber air -return duct is set on the first air channel foam, set the second refrigerating chamber to return on the second air channel foam Air channel, on the one hand, realize heat insulation function, on the other hand by opening up refrigerating chamber air -return duct on the foam of air channel, with prior art In the frothing foam of setting compare, depth of foam can be thinned, so as to reduce the refrigeration plants such as the refrigerator shared by foaming layer Volume, lifted refrigerating chamber space availability ratio.

Wherein, the frostproof froth n layer or difference that the first air channel foam and the second air channel foam can be integrated are single The frostproof froth n layer solely set.

In addition, refrigerating chamber air channel and refrigerating chamber return air inlet are further opened with the foam of air channel, to pass through refrigerating chamber return air inlet Make refrigerating chamber return air, ice-making compartment air -return duct is also opened in foaming layer.

In any of the above-described technical scheme, it is preferable that also include：First return air inlet, is opened on air duct cover board, and connects To the first refrigerating chamber air -return duct；Second return air inlet, is opened on institute's air duct cover board, is arranged at intervals with the first return air inlet, and connect To the second refrigerating chamber air -return duct, wherein, the first return air inlet and the second return air inlet are respectively arranged at the both sides of refrigeration evaporator, and The bottom surface of refrigeration evaporator is less than the first return air inlet, and the second return air inlet.

In the technical scheme, by opening up spaced first return air inlet and the second return air respectively on air duct cover board Mouthful, the first return air inlet is connected to the first refrigerating chamber air -return duct, and the second return air inlet is connected to the second refrigerating chamber air -return duct, realized cold Room return air is hidden, on the one hand, by the way that the first return air inlet and the second return air inlet to be respectively arranged to the both sides of refrigeration evaporator, in refrigeration Room do not work and ice-making compartment work operating mode under, it is distinguished and admirable along evaporator to refrigeration blower fan or ice making blower fan conduct, reduce cold draining Probability, on the other hand, by the way that the position of the first return air inlet and the second return air inlet to be set to the bottom surface higher than refrigeration evaporator, cold Hide under blower fan and the idle operating mode of refrigeration fan, cold air flows downward, and reduces cold draining probability.

In any of the above-described technical scheme, it is preferable that also include：Ice-making compartment air -return duct, the air inlet of ice-making compartment air -return duct Ice-making compartment is connected to, the air outlet of ice-making compartment air -return duct extends to the bottom of refrigeration evaporator.

In the technical scheme, by the way that the air inlet of ice-making compartment air -return duct is connected into ice-making compartment, ice-making compartment air -return duct Air outlet extends to the bottom of refrigeration evaporator, realizes ice-making compartment return air, completes ice-making compartment refrigerative circle system, by ice making The air outlet of room air -return duct extends to the bottom of refrigeration evaporator, improves the heat exchange efficiency of refrigeration evaporator, and then improves The refrigerating efficiency of refrigeration plant.

Specifically, ice-making compartment wind path is by ice-making compartment air channel, ice-making compartment air door, ice-making compartment air -return duct and ice machine air channel joint Constitute, ice-making compartment air channel joint is located in ice-making compartment, and ice-making compartment can be arranged on the air duct cover board in refrigerating chamber air channel, contributed to Lift the space availability ratio of refrigerating chamber.

In any of the above-described technical scheme, it is preferable that also include：Refrigerating evaporator, is correspondingly arranged with refrigerating chamber, for Refrigerating chamber provides cold air；Air channel is freezed, the air inlet in freezing air channel extends to refrigerating evaporator, the air outlet extension in freezing air channel To refrigerating chamber；Blower fan is freezed, is correspondingly arranged with freezing air channel, the cold air importing that freezing blower fan is used to generate refrigerating evaporator is cold Freeze room.

In the technical scheme, the chilled room air channel of cold air for being generated refrigerating evaporator by freezing blower fan, which is imported, to be freezed Interior, realizes the refrigerating function of refrigerating chamber, and refrigerating evaporator only need to provide cold air for refrigerating chamber, improve the refrigeration of refrigerating chamber Efficiency, while so that refrigeration plant integrates ice making, refrigeration, freezing function, improving the application of refrigeration plant, favorably In the popularization of refrigeration plant.

The additional aspect and advantage of the present invention will be provided in following description section, will partly be become from the following description Obtain substantially, or recognized by the practice of the present invention.

Brief description of the drawings

The above-mentioned and/or additional aspect and advantage of the present invention will become from description of the accompanying drawings below to embodiment is combined Substantially and be readily appreciated that, wherein：

Fig. 1 shows the structural representation of the refrigeration plant according to an embodiment of the invention with ice-making compartment；

Fig. 2 shows the front view of the refrigeration plant with ice-making compartment according to Fig. 1；

Fig. 3 shows the structural representation of the refrigeration plant with ice-making compartment according to another embodiment of the invention；

Fig. 4 shows the structural representation of the refrigeration plant with ice-making compartment according to still a further embodiment,

Wherein, corresponding relations of the Fig. 1 into Fig. 4 between reference and part is：

102 refrigerating chambers, 104 refrigerating chambers, 106 ice-making compartments, 108 refrigeration evaporators, 110 ice-making compartment air channels, 112 ice making wind Machine, 114 refrigeration blower fans, 116 refrigerating chamber air channels, 118 first MODs, 120 second MODs, 122 first air channel foams, 124 second air channel foams, 126 first refrigerating chamber air -return ducts, 128 second refrigerating chamber air -return ducts, 130 ice-making compartment air -return ducts, 132 is cold Freeze evaporator, 134 freezing blower fans.

Embodiment

It is below in conjunction with the accompanying drawings and specific real in order to be more clearly understood that the above objects, features and advantages of the present invention 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 Implemented with being different from other modes described here using other, therefore, protection scope of the present invention is not by described below Specific embodiment limitation.

It is specific to having the refrigeration plant of ice-making compartment 106 to carry out according to an embodiment of the invention with reference to Fig. 1 to Fig. 4 Explanation.

As shown in Figure 1 to Figure 3, there is the refrigeration plant of ice-making compartment 106 according to an embodiment of the invention, refrigeration plant includes Ice-making compartment 106 is provided with refrigerating chamber 102 and refrigerating chamber 104, refrigerating chamber 102, refrigeration plant also includes：Refrigeration evaporator 108, It is correspondingly arranged with refrigerating chamber 102；Ice-making compartment air channel 110, the air inlet in ice-making compartment air channel 110 extends to refrigeration evaporator 108, system The air outlet in icehouse air channel 110 extends to ice-making compartment 106；Ice making blower fan 112, is correspondingly arranged with ice-making compartment air channel 110, ice making wind The cold air that machine 112 is used to generate refrigeration evaporator 108 imports ice-making compartment 106.

In this embodiment, the cold air generated refrigeration evaporator 108 by ice making blower fan 112 and ice-making compartment air channel 110 Ice-making compartment 106 is imported, the ice making of ice-making compartment 106 is completed, refrigerating chamber 102 is realized and shares evaporator with ice-making compartment 106, with list respectively Solely set evaporator to compare, preparation cost and operation energy consumption can be reduced, with using the evaporator of refrigerating chamber 104 to ice-making compartment 106 The mode of refrigeration is compared, and can shorten air channel stroke, lifts refrigerating efficiency, and then reduces energy consumption, is simplified air channel structure, is saved into This, and by setting ice making blower fan 112, the efficiency that the cold air for generating refrigeration evaporator 108 imports ice-making compartment 106 is lifted, And then lift ice making efficiency.

Wherein, the setting of ice making blower fan includes but is not limited to implementation below：

Embodiment one：

As depicted in figs. 1 and 2, in the above embodiment, it is preferable that ice making blower fan 112 can be arranged at ice-making compartment 106 It is interior, and close to the air outlet in ice-making compartment air channel 110.

In this embodiment, the cold air generated refrigeration evaporator 108 by the ice making blower fan 112 in ice-making compartment 106 is inhaled Enter into ice-making compartment 106, realize the ice making function of ice-making compartment 106, air-out of the ice making blower fan 112 close to ice-making compartment air channel 110 Mouthful, the transmission efficiency of cold air is further increased, and then ice making efficiency is lifted, energy consumption is reduced, cost is saved.

Wherein, ice-making compartment air channel 110 is opened in foaming layer, on the one hand, can be incubated, and on the other hand, has saved ice making The space-consuming in room air channel 110, improves the space availability ratio of refrigeration plant.

Specifically, cold air is imported and made by the generation of refrigeration evaporator 108 cold air, ice making blower fan 112 by ice-making compartment air channel 110 In icehouse 106, after forced convertion, hot gas returns to the bottom of refrigeration evaporator 108 through ice-making compartment air -return duct 130, through refrigeration evaporator 108, which carry out heat exchange, turns into cold air, completes the kind of refrigeration cycle of ice-making compartment 106, refrigeration blower fan 114 will be cold by refrigerating chamber air channel 116 Conductance enters in refrigerating chamber 102, after forced convertion, and hot gas returns to the bottom of refrigeration evaporator 108 through refrigerating chamber air -return duct, is steamed through refrigeration Send out device 108 and carry out heat exchange as cold air, complete the kind of refrigeration cycle of ice-making compartment 106.

Embodiment two：

In addition, ice making blower fan 112 can also be set close to ice machine, to lift ice making efficiency.

Embodiment three：

As shown in figure 3, in any of the above-described embodiment, it is preferable that ice making blower fan 112 be arranged at refrigeration evaporator 108 with Between the air inlet in ice-making compartment air channel 110.

In this embodiment, the ice making blower fan between refrigeration evaporator 108 and the air inlet in ice-making compartment air channel 110 is passed through 112 cold air for generating refrigeration evaporator 108 are forced to import in ice-making compartment 106 through ice-making compartment air channel 110, realize ice-making compartment 106 ice making function, on the one hand, compared with ice making blower fan 112 is located in ice-making compartment 106, the refrigerating efficiency of ice-making compartment 106 is by ice making The influence for the heat that blower fan 112 itself operating is produced is smaller, on the other hand, further increases the transmission efficiency of cold air.

Example IV：

In addition, ice making blower fan 112 can also be arranged on the air inlet of ice-making compartment air channel 110, with the air intake of ice-making compartment air channel 110 Mouth is connected, or is arranged in ice-making compartment air channel 110, can further improve the wind-guiding efficiency of ice making blower fan 112, and then improve system The refrigerating efficiency of icehouse 106.

As shown in figure 4, in any of the above-described embodiment, it is preferable that also include：Refrigerating chamber air channel 116, refrigerating chamber air channel 116 air inlet extends to refrigeration evaporator 108, and the air outlet in refrigerating chamber air channel 116 extends to refrigerating chamber 102；Refrigerate blower fan 114, it is correspondingly arranged with refrigerating chamber air channel 116, the cold air that refrigeration blower fan 114 is used to generate refrigeration evaporator 108 imports refrigeration Room 102.

In this embodiment, by refrigerating cold air that blower fan 114 generates refrigeration evaporator 108 through refrigerating chamber air channel 116 Refrigerating chamber 102 is imported, the refrigerating function of refrigerating chamber 102 is realized, is conducive to shortening the stroke in refrigerating chamber air channel 116, is lifted cold Hide the refrigerating efficiency of room 102.

In any of the above-described embodiment, it is preferable that also include：First temperature sensor, is arranged in refrigerating chamber 102；The Two temperature sensors, are arranged in ice-making compartment 106；Controller, is respectively connecting to refrigeration blower fan 114, ice making blower fan 112, first Temperature sensor and second temperature sensor, wherein, the temperature value that controller is gathered according to the first temperature sensor controls to refrigerate The operating of blower fan 114, and/or the operating of temperature control ice making blower fan 112 that controller is gathered according to second temperature sensor.

In this embodiment, by the first temperature sensor being arranged in refrigerating chamber 102, refrigerating chamber can be detected in real time Temperature in 102, by the second temperature sensor being arranged in ice-making compartment 106, the temperature in ice-making compartment 106 can be detected in real time Degree, by the control for being respectively connecting to refrigerate blower fan 114, ice making blower fan 112, the first temperature sensor and second temperature sensor Device, to control the operating for refrigerating blower fan 114 and ice making blower fan 112, the temperature that controller can be gathered according to the first temperature sensor The operating of degree control refrigeration blower fan 114, the operating of the temperature controlled refrigerating blower fan gathered according to second temperature sensor is realized cold Hide the auto-control of refrigeration and the interior refrigeration of ice-making compartment 106 in room 102, when reaching design temperature in refrigerating chamber 102, controller control Refrigeration hides blower fan 114 and closes or turn down wind speed, refrigeration blower fan 114 transporting cold-air or reduction cold air no longer into refrigerating chamber 102 Transporting velocity, when reaching design temperature in ice-making compartment 106, wind speed is closed or turned down to controller control refrigeration fan, and freeze wind The transporting velocity of machine transporting cold-air or reduction cold air no longer into ice-making compartment 106, on the one hand, the intelligent water of lifting refrigeration plant It is flat, on the other hand, energy consumption can be saved.

Embodiment five：

As shown in figure 4, in any of the above-described embodiment, it is preferable that also include：First MOD 118, is arranged at refrigeration The air inlet in room air channel 116, and it is connected to controller；Second MOD 120, is arranged at the air intake in ice-making compartment air channel 110 At mouthful, and controller is connected to, wherein, the MOD of temperature control first that controller is gathered according to the first temperature sensor 118 opening and closings, and/or the second MOD of temperature control 120 that controller is gathered according to second temperature sensor are opened and closed.

In this embodiment, by being respectively connecting to the first MOD 118, the second MOD 120, the first temperature is passed The controller of sensor and second temperature sensor, to control the opening and closing of the first MOD 118 and the second MOD 120, control The first MOD of temperature control 118 that device processed can be gathered according to the first temperature sensor is opened and closed, and is sensed according to second temperature The second MOD of temperature control 120 of device collection is opened and closed, realize in refrigerating chamber 102 refrigeration in refrigeration and ice-making compartment 106 from Dynamic regulation and control, when reaching design temperature in refrigerating chamber 102, controller controls the first MOD 118 to close, no longer to refrigerating chamber Cold air is imported in 102, when reaching design temperature in ice-making compartment 106, controller controls the second MOD 120 to close, no longer Cold air is imported into ice-making compartment 106, on the one hand, lifting refrigeration plant intelligent level, on the other hand, can save energy consumption.

In addition, by setting the first MOD 118 and the second MOD 120, it is possible to achieve will be cold by a blower fan The cold air for hiding the generation of evaporator 108 is directed respectively into ice-making compartment 106 and refrigerating chamber 102, and then reduces refrigeration plant inner blower Quantity is set, on the one hand, saved cost, on the other hand, the space availability ratio of refrigeration plant is increased.

Specifically, refrigerating chamber air door (the first MOD 118) and ice-making compartment air door (the second MOD 120) can be simultaneously Open, can also simultaneously close off, can also open and close respectively, the operation of opening and closing relies primarily on refrigerating chamber 102 and ice making The temperature sensor of room 106 is controlled.

As shown in figure 4, in any of the above-described embodiment, it is preferable that also include：First air channel foam 122, is arranged on refrigeration It is adjacent with refrigeration evaporator 108 on the air duct cover board of room 102, the first refrigerating chamber air -return duct is opened up on the first air channel foam 122 126；Second air channel foam 124, is arranged on air duct cover board, adjacent with refrigeration evaporator 108, and with the first air channel foam 122 It is arranged at intervals, the second refrigerating chamber air -return duct 128 is opened up on the second air channel foam 124.

In this embodiment, by setting the first air channel foam 122 and the second air channel on the air duct cover board of refrigerating chamber 102 Foam 124, and first refrigerating chamber air -return duct 126 is set on the first air channel foam 122, set on the second air channel foam 124 The second refrigerating chamber air -return duct 128 is put, on the one hand, realize heat insulation function, on the other hand by opening up refrigerating chamber on the foam of air channel Air -return duct, compared with the frothing foam of setting of the prior art, can be thinned depth of foam, so as to reduce shared by foaming layer The refrigeration plant such as refrigerator volume, lift the space availability ratio of refrigerating chamber 102.

Wherein, the first air channel foam 122 and the second air channel foam 124 can be integrated frostproof froth n layer or The frostproof froth n layer individually set.

In addition, refrigerating chamber air channel 116 and refrigerating chamber return air inlet are further opened with the foam of air channel, to pass through refrigerating chamber return air Mouth makes the return air of refrigerating chamber 102, and ice-making compartment air -return duct 130 is also opened in foaming layer.

In any of the above-described embodiment, it is preferable that also include：First return air inlet, is opened on air duct cover board, and is connected to First refrigerating chamber air -return duct 126；Second return air inlet, is opened on institute's air duct cover board, is arranged at intervals with the first return air inlet, and connect To the second refrigerating chamber air -return duct 128, wherein, the first return air inlet and the second return air inlet are respectively arranged at the two of refrigeration evaporator 108 Side, and the bottom surface of refrigeration evaporator 108 is less than the first return air inlet, and the second return air inlet.

In this embodiment, by opening up spaced first return air inlet and the second return air respectively on air duct cover board Mouthful, the first return air inlet is connected to the first refrigerating chamber air -return duct 126, and the second return air inlet is connected to the second refrigerating chamber air -return duct 128, real The return air of refrigerating chamber 102 is showed, on the one hand, by the way that the first return air inlet and the second return air inlet are respectively arranged at into refrigeration evaporator 108 Both sides, refrigerating chamber 102 do not work and ice-making compartment 106 work operating mode under, it is distinguished and admirable along evaporator to refrigeration blower fan 114 or system Ice fan 112 conducts, and reduces cold draining probability, on the other hand, by the way that the position of the first return air inlet and the second return air inlet is set Higher than the bottom surface of refrigeration evaporator 108, under refrigeration blower fan 114 and the idle operating mode of refrigeration fan, cold air flows downward, drop Low cold draining probability.

As shown in Figures 2 and 3, in any of the above-described embodiment, it is preferable that also include：Ice-making compartment air -return duct 130, ice making The air inlet of room air -return duct 130 is connected to ice-making compartment 106, and the air outlet of ice-making compartment air -return duct 130 extends to refrigeration evaporator 108 Bottom.

In this embodiment, by the way that the air inlet of ice-making compartment air -return duct 130 is connected into ice-making compartment 106, ice-making compartment return air The air outlet in road 130 extends to the bottom of refrigeration evaporator 108, realizes the return air of ice-making compartment 106, completes ice-making compartment 106 and makes SAPMAC method process, the air outlet of ice-making compartment air -return duct 130 is extended to the bottom of refrigeration evaporator 108, improves refrigeration evaporation The heat exchange efficiency of device 108, and then improve the refrigerating efficiency of refrigeration plant.

Specifically, ice-making compartment wind path is returned by ice-making compartment air channel 112, ice-making compartment air door (the second MOD 120), ice-making compartment Air channel 130 and ice machine air channel joint are constituted, and ice-making compartment air channel joint is located in ice-making compartment 106, and ice-making compartment air -return duct 130 can be with On the air duct cover board for being arranged on refrigerating chamber air channel 116, help to lift the space availability ratio of refrigerating chamber 102.

As shown in Figure 1 to Figure 3, in any of the above-described embodiment, it is preferable that also include：Refrigerating evaporator 132, with freezing Room 104 is correspondingly arranged, for providing cold air to refrigerating chamber 104；Air channel is freezed, the air inlet in freezing air channel extends to freezing and evaporating Device 132, the air outlet in freezing air channel extends to refrigerating chamber 104；Blower fan 134 is freezed, is correspondingly arranged with the air channel of refrigerating chamber 104, it is cold The cold air that freezing blower fan 134 is used to generate refrigerating evaporator 132 imports refrigerating chamber 104.

In this embodiment, the chilled air channel of cold air generated refrigerating evaporator 132 by freezing blower fan 134 imports cold Freeze in room 104, realize the refrigerating function of refrigerating chamber 104,132 need of refrigerating evaporator are that refrigerating chamber 104 provides cold air, are improved The refrigerating efficiency of refrigerating chamber 104, while so that refrigeration plant integrates ice making, refrigeration, freezing function, improving refrigeration and setting Standby application, is conducive to the popularization of refrigeration plant.

Technical scheme is described in detail above in association with accompanying drawing, the present invention proposes a kind of system with ice-making compartment Cool equipment, the cold air for being generated refrigeration evaporator by ice making blower fan imports ice-making compartment, reduces the length in ice-making compartment air channel, carries The high transmission efficiency of cold air, and then energy consumption is reduced, save cost.

In the present invention, term " first ", " second ", " the 3rd " are only used for the purpose described, and it is not intended that indicating Or imply relative importance；Term " multiple " then refers to two or more, unless otherwise clear and definite restriction.Term " installation ", The term such as " connected ", " connection ", " fixation " all should be interpreted broadly, for example, " connection " can be fixedly connected or can Dismounting connection, or be integrally connected；" connected " can be joined directly together, and can also be indirectly connected to 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, to be for only for ease of the description present invention and simplification is retouched State, rather than indicate or imply that the device or unit of meaning there must be specific direction, with specific azimuth configuration and operation, It is thus impossible to be 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 that combining the embodiment or specific features, structure, material or the feature of example description is contained at least one reality of the 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 is combined.

The preferred embodiments of the present invention are the foregoing is only, are not intended to limit the invention, for the skill of this area For art personnel, the present invention can have various modifications and variations.Within the spirit and principles of the invention, that is made any repaiies Change, equivalent substitution, improvement etc., should be included in the scope of the protection.

Claims (10)

1. a kind of refrigeration plant with ice-making compartment, the refrigeration plant includes setting in refrigerating chamber and refrigerating chamber, the refrigerating chamber It is equipped with the ice-making compartment, it is characterised in that the refrigeration plant also includes：

Refrigeration evaporator, is correspondingly arranged with the refrigerating chamber；

Ice-making compartment air channel, the air inlet in the ice-making compartment air channel extends to the refrigeration evaporator, and the ice-making compartment air channel goes out Air port extends to the ice-making compartment；

Ice making blower fan, is correspondingly arranged with the ice-making compartment air channel, and the ice making blower fan is used for generate the refrigeration evaporator Cold air imports ice-making compartment.

2. the refrigeration plant according to claim 1 with ice-making compartment, it is characterised in that

The ice making blower fan is arranged in the ice-making compartment, and close to the air outlet in the ice-making compartment air channel.

3. the refrigeration plant according to claim 1 with ice-making compartment, it is characterised in that

The ice making blower fan is arranged between the air inlet in the refrigeration evaporator and the ice-making compartment air channel.

4. the refrigeration plant with ice-making compartment according to Claims 2 or 3, it is characterised in that also include：

Refrigerating chamber air channel, the air inlet in the refrigerating chamber air channel extends to the refrigeration evaporator, and the refrigerating chamber air channel goes out Air port extends to the refrigerating chamber；

Blower fan is refrigerated, is correspondingly arranged with the refrigerating chamber air channel, the refrigeration blower fan is used for generate the refrigeration evaporator Cold air imports the refrigerating chamber.

5. the refrigeration plant according to claim 4 with ice-making compartment, it is characterised in that also include：

First temperature sensor, is arranged in the refrigerating chamber；

Second temperature sensor, is arranged in the ice-making compartment；

Controller, is respectively connecting to the refrigeration blower fan, the ice making blower fan, first temperature sensor and the described second temperature Spend sensor,

Wherein, the operating for the temperature value control refrigeration blower fan that the controller is gathered according to first temperature sensor, And/or the operating of controller ice making blower fan according to the temperature control that the second temperature sensor is gathered.

6. the refrigeration plant according to claim 5 with ice-making compartment, it is characterised in that also include：

First MOD, is arranged at the air inlet in the refrigerating chamber air channel, and is connected to the controller；

Second MOD, is arranged at the air inlet in the ice-making compartment air channel, and is connected to the controller,

Wherein, the controller first MOD according to the temperature control that first temperature sensor is gathered is opened and closed, And/or the controller second MOD according to the temperature control that the second temperature sensor is gathered is opened and closed.

7. the refrigeration plant according to claim 6 with ice-making compartment, it is characterised in that also include：

It is adjacent with the refrigeration evaporator on first air channel foam, the air duct cover board for being arranged on the refrigerating chamber, first wind The first refrigerating chamber air -return duct is opened up on road foam；

Second air channel foam, is arranged on the air duct cover board, adjacent with the refrigeration evaporator, and is steeped with first air channel Foam is arranged at intervals, and the second refrigerating chamber air -return duct is opened up on the foam of second air channel.

8. the refrigeration plant according to claim 7 with ice-making compartment, it is characterised in that also include：

First return air inlet, is opened on the air duct cover board, and is connected to the first refrigerating chamber air -return duct；

Second return air inlet, is opened on institute's air duct cover board, is arranged at intervals with first return air inlet, and it is cold to be connected to described second Room air -return duct is hidden,

Wherein, first return air inlet is respectively arranged at the both sides of the refrigeration evaporator, and institute with second return air inlet The bottom surface for stating refrigeration evaporator is less than first return air inlet, and second return air inlet.

9. the refrigeration plant according to claim 1 with ice-making compartment, it is characterised in that also include：

Ice-making compartment air -return duct, the air inlet of the ice-making compartment air -return duct is connected to the ice-making compartment, the ice-making compartment air -return duct Air outlet extends to the bottom of the refrigeration evaporator.

10. the refrigeration plant according to claim 1 with ice-making compartment, it is characterised in that also include：

Refrigerating evaporator, is correspondingly arranged with the refrigerating chamber, for providing cold air to the refrigerating chamber；

Air channel is freezed, the air inlet in the freezing air channel extends to the refrigerating evaporator, and the air outlet in the freezing air channel prolongs Extend the refrigerating chamber；

Blower fan is freezed, is correspondingly arranged with the refrigerating chamber air channel, the freezing blower fan is used for generate the refrigerating evaporator Cold air imports the refrigerating chamber.