CN203478717U - Micro-channel evaporator for refrigeration appliance and refrigeration appliance - Google Patents

Abstract

The utility model provides a micro-channel evaporator for a refrigeration appliance and the refrigeration appliance. The body of the micro-channel evaporator is tabulate and comprises a pair of parallel collecting pipes. A connecting plate is fixed on the outer surface of one of the collecting pipe, the connecting plate is parallel with the axial direction of the collecting pipe, and the connecting plate is provided with an ultrasonic transducer which is vertical to the axial direction of the collecting pipe. The ultrasonic transducer and the body of the micro-channel evaporator are on the same plane or the ultrasonic transducer is vertical to the plane of the micro-channel evaporator. By the structure, due to the fact that the ultrasonic transducer is disposed on the collecting pipe, the boundary layers of the coolant flowing in the pipeline can be reduced, the heat exchanging efficiency of the micro-channel evaporator can be increased favorably, and frosting control and frost removing of the micro-channel evaporator can be achieved.

Description

Micro-channel evaporator and electric refrigerator for electric refrigerator

Technical field

The utility model relates to a kind of micro-channel evaporator for electric refrigerator and electric refrigerator.

Background technology

Due to micro-channel heat exchanger adopt integrated structure and heat exchange efficiency high, it is considered to substitute the new type heat exchanger of wing-pipe heat exchanger.Yet, due to micro-channel heat exchanger, there is the problems such as fouling, frosting, water blockoff, limited its application of high efficient heat exchanging advantage on evaporimeter, for example, micro-channel heat exchanger major applications is on single cool condenser, and only a few is applied on evaporimeter.In addition, in view of ultrasonic wave has the possibility of effect and the defrosting of scale removal/antiscale, in recent years, application feasibility and the potential advantages of ultrasound wave defrosting technology on wing-tubular evaparator have obtained the concern of some scholars and application study, but there is no the research case of applying on micro-channel heat exchanger.

For example, application number is that the open text of 201220164105.7 patent has proposed a kind of air-conditioner with ultrasound wave defrosting, cleaning function, bottom at the condenser of air-conditioner is fixed with the transducer being connected with supersonic generator, this transducer runs through the heat exchange fin of condenser, and be fixed on the opposite end plate of condenser, can atomization condensed water by supersonic generator, can also be suppressed on condenser and produce frost and minimizing defrosting time, be conducive to improve condenser heat exchange efficiency simultaneously.Yet, in aforementioned techniques scheme, only propose to arrange ultrasonic transducer and solve defrosting problem on condenser, and mainly for the application of conventional wing-pipe heat exchanger, unexposed frosting, the defrosting problem that how to solve micro-channel heat exchanger.

Utility model content

In view of this, main purpose of the present utility model is, provide a kind of and can effectively defrost, the micro-channel evaporator for electric refrigerator and the electric refrigerator of preventing frosting, realize the defrosting application of non-heating, to guarantee frostless/few white state of evaporator surface, and further strengthen the heat exchange efficiency of evaporimeter.

For achieving the above object, the utility model proposes a kind of micro-channel evaporator for electric refrigerator, comprise a pair of collector be arrangeding in parallel, it is characterized in that, a described collector is provided with and its axial vertical ultrasonic transducer at least therein.

Adopt said structure, because collector described at least one is provided with and its axial vertical ultrasonic transducer, when ultrasonic transducer vibrates, can add by the overall structure advantage of micro-channel evaporator the transmission effect of strong vibration, thereby reduce the boundary layer producing when refrigerant flows in pipeline, be conducive to improve the heat exchange efficiency of micro-channel evaporator.Meanwhile, by ultrasonic transducer, can also play the effect that suppresses frosting, defrosting to micro-channel evaporator.

Preferably, the main body of described micro-channel evaporator is tabular, and described ultrasonic transducer and this main body are in same plane or perpendicular to this main body place plane.

Adopt said structure, because described ultrasonic transducer and this main body are in same plane or perpendicular to this main body place plane, can add the transmission effect of strong vibration, be conducive to improve the heat transfer effect of micro-channel evaporator and suppress better frosting, defrosting.

Preferably, be fixed with the connecting plate with its axially parallel on the outer surface of described collector, the bottom of described ultrasonic transducer is fixed on this connecting plate.

Adopt said structure, owing to being provided with described connecting plate, can make more easily described ultrasonic transducer be fixed on connecting plate, be conducive to reduce the fixedly difficulty of ultrasonic transducer.

Preferably, described connecting plate sticks on described collector.

Adopt said structure, because described connecting plate sticks on described collector, can simplify the syndeton of connecting plate and collector, be conducive to simplify the installation process of ultrasonic transducer.

Preferably, be provided with a plurality of flat tubes with microchannel between described a pair of collector, these a plurality of flat tubes are vertical with described collector and be set parallel to each other respectively, and the two ends of single described flat tube are communicated with described a pair of collector respectively.

Adopt said structure, described flat tube and collector are joined together to form an integral body, are conducive to strengthen the transmission effect of the vibration that ultrasonic transducer produces.

Preferably, described ultrasonic transducer is arranged on described in one of them on collector, and this collector has the inlet tube that imports for refrigerant and for the outlet of refrigerant output.

The utility model has also proposed a kind of electric refrigerator, and described electric refrigerator comprises the micro-channel evaporator for electric refrigerator described in aforementioned middle any one.What it produced has a mind to effect as hereinbefore, at this, does not repeat.

Preferably, described electric refrigerator is at least one in air-conditioning, refrigerator and refrigerator.

Accompanying drawing explanation

Fig. 1 is the overall structure figure of micro-channel evaporator, is the first embodiment;

Fig. 2 is the top view of micro-channel evaporator shown in Fig. 1;

Fig. 3 is the side view of ultrasonic transducer in Fig. 1;

Fig. 4 is the overall structure figure of micro-channel evaporator, is the second embodiment;

Fig. 5 is the top view of micro-channel evaporator shown in Fig. 4;

Fig. 6 is the side view of ultrasonic transducer in Fig. 4.

The specific embodiment

Take below and be arranged on micro-channel evaporator on air-conditioning and with reference to 1～6 pair, accompanying drawing is described in the utility model, for the micro-channel evaporator of electric refrigerator and the specific embodiment of electric refrigerator, be described in detail as example.

Fig. 1～Fig. 3 is the first embodiment that ultrasonic transducer arranges on micro-channel evaporator.As shown in FIG. 1 to 3, micro-channel evaporator comprises the collector 2 of a pair of circle be arrangeding in parallel, between this pair of collector 2, is provided with a plurality of flat tubes 1, and these a plurality of flat tubes 1 are vertical with this pair of collector 2 and be set parallel to each other respectively.Wherein, the two ends of each flat tube 1 are communicated with aforementioned a pair of collector 2 respectively, in collector 1, are provided with dividing plate, by this dividing plate, evaporimeter runner are separated into several flow processs.Each flat tube 1 has many trickle runners conventionally, and its cross section is aperture between the cellular of 10～1000 μ m.Between aforementioned a pair of collector 2, be also provided with a plurality of fins that be arranged in parallel 7, this fin 7 is made by the sheet metal of saw-toothed cross section, they are clamped between adjacent two flat tubes 1, so, collector 2, flat tube 1 and fin 7 these threes are joined together to form an integral body, make the main body of micro-channel evaporator be tabular.

On collector 2 above being positioned at, be also provided with inlet tube 3 and outlet 5, normally in service, refrigerant enters collector 2 by inlet tube 3, then in collector 2, is divided into many branch roads along flat tube 1 circulation to carry out heat exchange, and the refrigerant after heat exchange is discharged by outlet 6.

As shown in Figure 1, above the outer surface of collector 2 between inlet tube 3 and outlet 5, by AB glue (ultrasonic wave shake a special glue), paste and be fixed with connecting plate 5, the axially parallel of these connecting plate 5 place planes and collector 2, the two integral body is tangent relation, and connecting plate 5 place planes are cut in outward on the outer surface of collector 2.On connecting plate 5, be fixed with ultrasonic transducer 4, the main body of this ultrasonic transducer 4 and micro-channel evaporator is in same plane.Particularly, the bottom that is trumpet-shaped radiating surface 41 of ultrasonic transducer 4 can tighten together with connecting plate 5 by screw.Wherein, ultrasonic transducer 4 can be converted into high-frequency electrical energy the device of mechanical energy in prior art, and specifically the piezo-electric effect by material converts electrical signals to mechanical oscillation.

Fig. 4～Fig. 6 is the second embodiment that ultrasonic transducer arranges on micro-channel evaporator, and the difference of the first embodiment shown in itself and Fig. 1～Fig. 3 is only, ultrasonic transducer 4 is perpendicular with the main body place plane of micro-channel evaporator.

In two embodiment shown in above-mentioned Fig. 1～Fig. 6, owing to being fixed with ultrasonic transducer 4 on collector 2, by this ultrasonic transducer 4, to collector 2, apply the ultrasonic vibration of high frequency/micro-amplitude, can this ultrasonic vibration be passed to fin surface better by the integrated syndeton of micro-channel evaporator, thereby make whole micro-channel heat exchanger in vibrational state, can strengthen passing the effect of shaking, thereby reduce refrigerant in the interior boundary layer producing when mobile of flat tube 1, be conducive to improve the heat transfer effect of evaporimeter.In addition, micro-channel evaporator can produce the vibration of low frequency large amplitude when work due to the flow-induced vibration of refrigerant, the ultrasonic vibration of the high frequency/micro-amplitude producing by the ultrasonic transducer 4 that superposes at evaporator surface, can utilize shock effect and the shearing force effect of huge acceleration to remove the early stage hoar crystal body producing in micro-channel evaporator surface, all the time maintain the frostless or few white state of evaporator surface, can play the effect that suppresses frosting, defrosting to micro-channel evaporator.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

For example, in the above-described embodiments, take and be arranged on the description that the micro-channel evaporator on air-conditioning carries out as example, yet not limited thereto, this micro-channel evaporator also can be applicable on the household refrigerating appliances such as refrigerator, refrigerator.

Again for example, in Fig. 1～embodiment illustrated in fig. 6, ultrasonic transducer 4 is only arranged on the collector 2 that is positioned at top, yet not limited thereto, on collector that also can be below being positioned at or this pair of collector, ultrasonic transducer is all set.

Again for example, in Fig. 1～embodiment illustrated in fig. 6, ultrasonic transducer 4 is fixed on collector 2 by connecting plate 5, yet not limited thereto, and this ultrasonic transducer also can directly be fixed on collector 2 by connected modes such as snap fastener, seccotine stickup or screws.

Claims (8)

1. for a micro-channel evaporator for electric refrigerator, comprise a pair of collector (2) be arrangeding in parallel, it is characterized in that, a described collector (2) is provided with and its axial vertical ultrasonic transducer (4) at least therein.

2. according to the micro-channel evaporator described in claim 1, it is characterized in that, the main body of described micro-channel evaporator is tabular, and described ultrasonic transducer (4) and this main body are in same plane or perpendicular to this main body place plane.

3. according to the micro-channel evaporator described in claim 1, it is characterized in that, on the outer surface of described collector (2), be fixed with the connecting plate (5) with its axially parallel, the bottom of described ultrasonic transducer (4) is fixed on this connecting plate (5).

4. according to the micro-channel evaporator described in claim 3, it is characterized in that, described connecting plate (5) sticks on described collector (2).

5. according to the micro-channel evaporator described in claim 1, it is characterized in that, between described a pair of collector (2), be provided with a plurality of flat tubes (1) with microchannel, these a plurality of flat tubes (1) are vertical with described collector (2) and be set parallel to each other respectively, and the two ends of single described flat tube (1) are communicated with described a pair of collector (2) respectively.

6. according to the micro-channel evaporator described in claim 1, it is characterized in that, it is upper that described ultrasonic transducer (4) is arranged on described in one of them collector (2), and this collector (2) has the inlet tube (3) that imports for refrigerant and for the outlet (5) of refrigerant output.

7. an electric refrigerator, is characterized in that, described electric refrigerator comprises the micro-channel evaporator for electric refrigerator described in any one in claim 1～6.

8. according to the electric refrigerator described in claim 7, it is characterized in that, described electric refrigerator is at least one in air-conditioning, refrigerator and refrigerator.

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