CN205192050U - Evaporating dish subassembly and have refrigerator of this evaporating dish subassembly - Google Patents

Abstract

The utility model relates to an evaporating dish subassembly and have refrigerator of this evaporating dish subassembly. Particularly, the utility model provides an evaporating dish subassembly, it includes the water receiving box, it has diapire and perisporium, and the heat exchanger, configure into and utilize the heat that flows in its interior medium release to make the water evaporation in the water receiving box, and the heat exchanger has the flat pipeline section of a plurality of heat transfer, flat tub of period number of every heat transfer is in the diapire, or a side of the flat pipeline section of every heat transfer contacts to leaning on with the diapire. Furthermore, the utility model also provides a refrigerator that has above -mentioned evaporating dish subassembly. The utility model discloses a because the white water evaporimeter of being arranged in has the flat pipeline section of a plurality of heat transfer, the preferred micro channel flat tube that is of the flat pipeline section of heat transfer is showing the heat radiating area and the radiating efficiency that have improved the heat exchanger, and then can show the evaporation efficiency who improves the condensate water and change white water in evaporating dish subassembly and the refrigerator, and can make preliminary condensation section (high temperature) the heat transfer cooling speed of refrigerator fast.

Description

Evaporating dish assembly and there is the refrigerator of this evaporating dish assembly

Technical field

The utility model relates to refrigerating equipment, particularly relates to a kind of evaporating dish assembly and has the refrigerator of this evaporating dish assembly.

Background technology

Evaporating dish assembly is the parts that of refrigerator is indispensable.Refrigerator is because exchange cold and hot in case can produce condensate water in running, and wind cooling refrigerator periodically defrost can produce defrosting water, is used for collecting condensate water and defrosting water so refrigerator generally all arranges drip tray.Defrosting tray of refrigerator is arranged on the top of freezer compressor usually, and the condensed water that refrigerator inside produces and defrosting water flow in drip tray by the drainpipe arranged in refrigerator, and the heat produced when then utilizing freezer compressor to run evaporates the water in drip tray.For the refrigerator that the amount producing condensate water and defrosting water is larger, in order to add the memory space of flood and accelerate evaporation rate, usually other are local drip tray to be placed in compressor room, like this can the volume of drip tray do very large, and a part for condenser is arranged in drip tray, as water evaporation tube.Like this, drip tray volume increases, and the water making it hold is not easy excessive, utilizes the cold-producing medium heat flowing through evaporation tube to realize condensate water and defrost evaporation of water simultaneously.But in existing this mode, the evaporation efficiency of condensate water and defrosting water is lower.

Utility model content

An object of the utility model first aspect is intended at least one defect overcoming existing evaporating dish assembly, and provide a kind of evaporating dish assembly of novelty, it can significantly improve the evaporation efficiency of condensate water and defrosting water.

As far as possible a further object of the utility model first aspect to make preliminary condensation section (high temperature) the heat exchange cooling rate of refrigerator fast.

The object of the utility model second aspect to provide a kind of refrigerator with above-mentioned evaporating dish assembly.

According to an aspect of the present utility model, the utility model provides a kind of evaporating dish assembly for refrigerator, and it comprises:

Water spilage tray, it has diapire and perisporium; With

Heat exchanger, is configured to utilize the heat of the medium release flowed in it that water in described water spilage tray is evaporated; And described heat exchanger has multiple flat heat exchange pipe section;

Each described flat heat exchange pipe section is positioned at described diapire, or

A side and the described diapire of each described flat heat exchange pipe section contact against.

Alternatively, each described flat heat exchange pipe section extends along horizontal transverse direction.

Alternatively, described heat exchanger also comprises:

Two headers, each described header extends along horizontal longitudinal direction;

Multiple first connection flat pipeline section, the two ends of each described first connection flat pipeline section are communicated to one end of a described header and a described flat heat exchange pipe section respectively; With

Multiple second connection flat pipeline section, the two ends of each described second connection flat pipeline section are communicated to the other end of header described in another and a described flat heat exchange pipe section respectively.

Alternatively, the perisporium of described water spilage tray comprises a pair transverse end wall being arranged at described diapire transverse ends respectively;

Described multiple first connection flat pipeline section and described multiple second connection flat pipeline section lay respectively in transverse end wall described in a pair, or contact against described transverse end wall with this respectively.

Alternatively, described heat exchanger also comprises multiple arc flat pipe section, and each described arc flat pipe section is configured to the same side connecting every two adjacent described flat heat exchange pipe sections.

Alternatively, each described arc flat pipe section is positioned at described diapire, or

A side and the described diapire of each described arc flat pipe section contact against.

Alternatively, there is in each described flat heat exchange pipe Duan Weiqi the micro-channel flat of the multiple passages be arranged in parallel.

Alternatively, each described flat heat exchange pipe section is arranged in described water spilage tray, and each downside of described flat heat exchange pipe section and the inner surface of described diapire contact against; Or

Described diapire comprises upper strata wall and lower floor's wall, and described multiple flat heat exchange pipe section is folded in therebetween by described upper strata wall and described lower floor wall, is positioned at described diapire to make each described flat heat exchange pipe section.

Alternatively, described diapire is made up of metal material, and described perisporium is made up of metal material or is made up of plastic material.

According to second aspect of the present utility model, the utility model provides a kind of refrigerator, it comprises compressor and condenser, and any one evaporating dish assembly above-mentioned, and the heat exchanger of described evaporating dish assembly is communicated with the gas outlet of described compressor and the air inlet of described condenser.

Because for having multiple flat heat exchange pipe section in defrosting water evaporimeter in evaporating dish assembly of the present utility model and refrigerator, flat heat exchange pipe section is preferably micro-channel flat, significantly improve area of dissipation and the radiating efficiency of heat exchanger, and then the evaporation efficiency of condensate water and defrosting water can be significantly improved, and preliminary condensation section (high temperature) the heat exchange cooling rate of refrigerator can be made fast.

According to hereafter by reference to the accompanying drawings to the detailed description of the utility model specific embodiment, those skilled in the art will understand above-mentioned and other objects, advantage and feature of the present utility model more.

Accompanying drawing explanation

Hereinafter describe specific embodiments more of the present utility model with reference to the accompanying drawings by way of example, and not by way of limitation in detail.Reference numeral identical in accompanying drawing denotes same or similar parts or part.It should be appreciated by those skilled in the art that these accompanying drawings may not be drawn in proportion.In accompanying drawing:

Fig. 1 is the schematic diagram of the evaporating dish assembly according to the utility model embodiment;

Fig. 2 is the show in schematic partial sections of the evaporating dish assembly according to the utility model embodiment;

Fig. 3 is the show in schematic partial sections of the evaporating dish assembly according to the utility model embodiment.

Detailed description of the invention

Fig. 1 is the schematic diagram of the evaporating dish assembly according to the utility model embodiment, and Fig. 2 is the show in schematic partial sections of the evaporating dish assembly according to the utility model embodiment.As depicted in figs. 1 and 2, the utility model embodiment provides a kind of evaporating dish assembly for refrigerator.This evaporating dish assembly can comprise water spilage tray 20 and heat exchanger 40.Water spilage tray 20 has diapire 21 and perisporium, for receiving and holding defrosting water.Heat exchanger 40 can be configured to utilize the heat of the medium release flowed in it that water in water spilage tray 20 is evaporated.Medium can be the high temperature refrigerant from compressor.In order to improve the evaporation efficiency of defrosting water, heat exchanger 40 has multiple flat heat exchange pipe section 41, and each flat heat exchange pipe section 41 is positioned at diapire 21, or a side of each flat heat exchange pipe section 41 and diapire 21 contact against.Preferably, each flat heat exchange pipe section 41 is the micro-channel flat in it with the multiple passages be arranged in parallel.

Such as, in some embodiments, as shown in Figure 2, each flat heat exchange pipe section 41 extends along horizontal transverse direction.The diapire 21 of water spilage tray 20 can be made by metal material (as aluminium sheet) or is made up of plastic material.Each flat heat exchange pipe section 41 is arranged in water spilage tray 20, and the downside of each flat heat exchange pipe section 41 and the inner surface of diapire 21 contact against.In other embodiments of the present utility model, as shown in Figure 3, diapire 21 comprises lower floor's wall 211 and upper strata wall 212, and multiple flat heat exchange pipe section 41 is folded in therebetween by upper strata wall 212 and lower floor's wall 211, is positioned at diapire 21 to make each flat heat exchange pipe section 41.

In embodiments more of the present utility model, heat exchanger 40 also can comprise two headers 42, multiple first connection flat pipeline section 43 and multiple second connection flat pipeline section 44.Each header 42 extends along horizontal longitudinal direction; The two ends of each first connection flat pipeline section 43 are communicated to one end of a header 42 and a flat heat exchange pipe section 41 respectively; The two ends of each second connection flat pipeline section 44 are communicated to the other end of another header 42 and a flat heat exchange pipe section 41 respectively.

Further, the perisporium of water spilage tray 20 can be made by metal material (as aluminium sheet) or is made up of plastic material, and comprises a pair transverse end wall 22 being arranged at diapire 21 transverse ends respectively.Multiple first connection flat pipeline section 43 and multiple second connection flat pipeline section 44 also can be micro-channel flat, and lay respectively in a pair transverse end wall 22, or contact against transverse end wall 22 with this respectively.

In alternate embodiment more of the present utility model, heat exchanger 40 also comprises multiple arc flat pipe section, and each arc flat pipe section is configured to the same side connecting every two adjacent flat heat exchange pipe sections 41.And each arc flat pipe section is positioned at diapire 21, or a side of each arc flat pipe section and diapire 21 contact against, and extend in snakelike shape bending to make heat exchanger 40.

The utility model embodiment still provides a kind of refrigerator, and refrigerator generally can comprise room between storing, compressor, condenser, throttling arrangement and evaporimeter.Evaporimeter is used for room cooling between storing.Especially, refrigerator also can comprise the evaporating dish assembly in above-mentioned any embodiment.The heat exchanger 40 of evaporating dish assembly is communicated with the gas outlet of compressor and the air inlet of condenser, and that is, refrigerator makes its preliminary condensation section be integrated on water spilage tray 20, and higher to realize preliminary condensation section heat transfer effect, the evaporation rate of defrosting water is faster.

So far, those skilled in the art will recognize that, although multiple exemplary embodiment of the present utility model is illustrate and described herein detailed, but, when not departing from the utility model spirit and scope, still can directly determine or derive other modification many or amendment of meeting the utility model principle according to content disclosed in the utility model.Therefore, scope of the present utility model should be understood and regard as and cover all these other modification or amendments.

Claims (10)

1., for an evaporating dish assembly for refrigerator, it is characterized in that, comprising:

Water spilage tray, it has diapire and perisporium; With

Heat exchanger, is configured to utilize the heat of the medium release flowed in it that water in described water spilage tray is evaporated; And

Described heat exchanger has multiple flat heat exchange pipe section;

Each described flat heat exchange pipe section is positioned at described diapire, or

A side and the described diapire of each described flat heat exchange pipe section contact against.

2. evaporating dish assembly according to claim 1, is characterized in that,

Each described flat heat exchange pipe section extends along horizontal transverse direction.

3. evaporating dish assembly according to claim 2, is characterized in that, described heat exchanger also comprises:

Two headers, each described header extends along horizontal longitudinal direction;

Multiple first connection flat pipeline section, the two ends of each described first connection flat pipeline section are communicated to one end of a described header and a described flat heat exchange pipe section respectively; With

Multiple second connection flat pipeline section, the two ends of each described second connection flat pipeline section are communicated to the other end of header described in another and a described flat heat exchange pipe section respectively.

4. evaporating dish assembly according to claim 3, is characterized in that,

The perisporium of described water spilage tray comprises a pair transverse end wall being arranged at described diapire transverse ends respectively;

Described multiple first connection flat pipeline section and described multiple second connection flat pipeline section lay respectively in transverse end wall described in a pair, or contact against described transverse end wall with this respectively.

5. evaporating dish assembly according to claim 2, is characterized in that,

Described heat exchanger also comprises multiple arc flat pipe section, and each described arc flat pipe section is configured to the same side connecting every two adjacent described flat heat exchange pipe sections.

6. evaporating dish assembly according to claim 5, is characterized in that,

Each described arc flat pipe section is positioned at described diapire, or

A side and the described diapire of each described arc flat pipe section contact against.

7. evaporating dish assembly according to claim 1, is characterized in that,

There is in each described flat heat exchange pipe Duan Weiqi the micro-channel flat of the multiple passages be arranged in parallel.

8. evaporating dish assembly according to claim 1, is characterized in that,

Each described flat heat exchange pipe section is arranged in described water spilage tray, and each downside of described flat heat exchange pipe section and the inner surface of described diapire contact against; Or

Described diapire comprises upper strata wall and lower floor's wall, and described multiple flat heat exchange pipe section is folded in therebetween by described upper strata wall and described lower floor wall, is positioned at described diapire to make each described flat heat exchange pipe section.

9. evaporating dish assembly according to claim 1, is characterized in that,

Described diapire is made up of metal material, and described perisporium is made up of metal material or is made up of plastic material.

10. a refrigerator, comprises compressor and condenser, it is characterized in that, also comprise:

Evaporating dish assembly according to any one of claim 1 to 9, the heat exchanger of described evaporating dish assembly is communicated with the gas outlet of described compressor and the air inlet of described condenser.