CN105466110B - Wind cooling refrigerator and its air-supply structure - Google Patents

Abstract

Present invention is disclosed a kind of wind cooling refrigerator and its air-supply structures, tubular evaparator and second compartment including the first compartment, positioned at the first compartment, communication port is set between first compartment and second compartment, the coil pipe of evaporator penetrates second compartment from the first compartment, and it is wound in helix tube around communication port gapless in second compartment, constitute the pipeline that gas supply stream passes through.

Description

Wind cooling refrigerator and its air-supply structure

Technical field

The invention belongs to refrigeration technology fields, and in particular to a kind of ice that refrigeration evaporator is wound to air-supply structure Case.

Background technology

Single system wind cooling refrigerator is refrigeration chamber by indirect mode, and evaporator is installed on the liner of freezing chamber, cold It hides and air door is set between room and freezing chamber, wind turbine is installed on the refrigeration air duct for leading to refrigerating chamber, the cold sky that evaporator is generated Gas forced air supply is to refrigerating chamber to freeze to it.Air duct is refrigerated by the support element of plastic material, sealing PE, sealing foam and air duct Foam assembles, and cold air stream can consume part cold behind air duct, and refrigerating efficiency is low, and air channel structure part needs to develop Mold, manufacturing cost is higher, furthermore plastic products have peculiar smell, inadequate Environmental Safety.

Invention content

It is an object of the invention to solve the problems, such as that the refrigeration air duct of wind cooling refrigerator consumption cold, refrigerating efficiency are low.

For achieving the above object, the present invention provides a kind of refrigerator air-supply structure, and refrigerator includes the first compartment, is located at the The tubular evaparator and second compartment of one compartment, are arranged communication port between the first compartment and second compartment, the coil pipe of evaporator from First compartment penetrates second compartment, and is wound in helix tube around communication port gapless in second compartment, constitutes gas supply circulation The pipeline crossed.

As being further improved for an embodiment of the present invention, evaporator coil penetrates second from the first compartment through communication port Compartment.

As being further improved for an embodiment of the present invention, one end of helix tube is connected with communication port gapless.

It is open as being further improved for an embodiment of the present invention, at the top of helix tube.

As being further improved for an embodiment of the present invention, helix tube extends in vertical direction.

As being further improved for an embodiment of the present invention, the first indoor setting wind turbine, wind turbine is located at tubular type evaporation Between device and communication port.

As being further improved for an embodiment of the present invention, air-supply structure includes the cover board positioned at second compartment, and second Compartment is limited with cover board in an accommodation space.

As being further improved for an embodiment of the present invention, helix tube is located in accommodation space.

As being further improved for an embodiment of the present invention, an at least air outlet is arranged in cover board.

To achieve the above object, an embodiment of the present invention provides a kind of wind cooling refrigerator, including any of the above-described air-supply knot Structure.

Compared with prior art, wind cooling refrigerator and its air-supply structure provided by the invention are borrowed without assembling refrigeration air duct Evaporator coil is wound up as air duct, and while freezing chamber cold wind is sent into refrigerating chamber, the refrigerant boiling vaporization in coil pipe absorbs Heat can enhance the refrigeration effect of refrigerating chamber.

Description of the drawings

Fig. 1 is the structural schematic diagram of one embodiment of air-supply structure of the present invention.

Specific implementation mode

Below with reference to specific implementation mode shown in the drawings, the present invention will be described in detail.But these embodiments are simultaneously The present invention is not limited, structure that those skilled in the art are made according to these embodiments, method or functionally Transformation is included within the scope of protection of the present invention.

The wind cooling refrigerator of the present invention is single system wind cooling refrigerator, including babinet, door body, air duct, wind turbine, compressor, evaporation Device, the first temperature sensor, second temperature sensor and controller.

With reference to figure 1, in an embodiment of the present invention, babinet includes freezing chamber 10 and refrigerating chamber 20.

Door body is pivotably mounted on babinet to open or close freezing chamber 10 and refrigerating chamber 20.

Compressor improves the gas pressure of refrigerant, and liquefaction condition, refrigerant is caused to liquefy when flowing through condenser, release heat Then amount passes through capillary, reduce pressure and temperature, and boiling vaporization, absorbs heat when reaching evaporator 30, freezes for babinet. Evaporator 30 is located at freezing chamber liner, and the cold air generated enters freezing chamber 10 by freezing chamber air port.

Partition board between freezing chamber liner and refrigerating chamber liner opens up the first air port 40, the first air port 40 and refrigeration air duct 50 It is connected, refrigeration air duct 50 is located at refrigerating chamber liner.Wind turbine 60 is located between evaporator 30 and the first air port 40, is used for evaporator 30 cold air is recycled in refrigeration air duct 50, and then is transported to refrigerating chamber 20.

First temperature sensor and second temperature sensor are located in babinet.Wherein, the first temperature sensor is for detecting The temperature of refrigerating chamber 20, second temperature sensor are used to detect the temperature of freezing chamber 10.

Controller is connected with compressor, wind turbine 60, the first temperature sensor and second temperature sensor respectively, with according to each The temperature of compartment controls compressor operation, and evaporator 30 is driven to freeze, and the start-stop by controlling wind turbine 60 carries out each compartment Cold distributes, and realizes and freezes to freezing chamber 10 or refrigerating chamber 20.

Evaporator 30 is that tubular evaparator penetrates as shown in Figure 1, the coil pipe 301 of evaporator 30 is pierced by from freezing chamber liner Partition board between freezing chamber liner and refrigerating chamber liner, into refrigerating chamber liner, and in the vertical direction around the first air port 40 Extend, disk constitutes refrigeration air duct 50 at helix.The spiral bottom of the tube and the outlet in the first air port 40 are in same plane On, so that helix tube is connected with 40 gapless of the first air port.And 301 gapless of coil pipe is wound, and forms a closed air-supply space. Coil pipe 301 is metal pipe material, can easily realize the coiled structure of helix tube.

Helix tube is located at refrigerating chamber liner and is formed by accommodation space with cover board 70, is opening, cold sky at the top of helix tube Gas is overflowed from opening, enters refrigerating chamber 20 through the second air outlet 701 on cover board 70.Cover board 70 will refrigerate air duct 50 and refrigerating chamber 20 material-putting space isolation, plays beautiful effect.One second air outlet 701 is at least arranged in cover board 70.

In a further embodiment of this invention, first air port of gallbladder channel 40 out of freezing chamber of coil pipe 301 enters refrigerating chamber liner（Figure Do not show）.In this way, being penetrated for coil pipe 301 without separately opening up through-hole on partition board.

The present invention borrows evaporator coil and is wound up as air duct, freezing chamber cold wind is sent into and is refrigerated without assembling refrigeration air duct While room, the refrigerant boiling vaporization in coil pipe absorbs heat, can enhance the refrigeration effect of refrigerating chamber.

It should be appreciated that although this specification is described in terms of embodiments, but not each embodiment only includes one A independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should will say As a whole, the technical solution in each embodiment may also be suitably combined to form those skilled in the art can for bright book With the other embodiment of understanding.

The series of detailed descriptions listed above only for the present invention feasible embodiment specifically Bright, they are all without departing from equivalent implementations made by technical spirit of the present invention not to limit the scope of the invention Or change should all be included in the protection scope of the present invention.

Claims (2)

1. a kind of refrigerator air-supply structure, refrigerator includes the first compartment, second compartment and the tubular evaparator positioned at the first compartment, institute It states and communication port is set between the first compartment and second compartment, which is characterized in that the coil pipe of the evaporator is from the first compartment through institute It states communication port and penetrates second compartment, and gapless is wound in helix tube in second compartment, the helix tube is in the vertical direction Extend, one end is connected with the communication port gapless, and the other end forms opening, constitutes the pipeline that gas supply stream passes through；Between second Cover board is arranged in room, and liner and the cover board of the second compartment limit an accommodation space to accommodate the helix tube, and the cover board is set Set an at least air outlet；The first indoor setting wind turbine, the wind turbine is between tubular evaparator and communication port.

2. a kind of wind cooling refrigerator, which is characterized in that including air-supply structure described in claim 1.