CN202303674U - Air-conditioning system - Google Patents

Abstract

The utility model provides an air-conditioning system. The air-conditioning system comprises an indoor unit and an outdoor unit, and is characterized in that the indoor unit comprises an air return port, an air outlet, a heat exchanger, a fan and a water vapor generator. The water vapor generator generates water vapor, the water vapor is mixed with air entering from the air return port of the indoor unit to form a mixed gas, and the mixed gas passes through the heat exchanger and is sent out through the air outlet, so that the humidity of air can be kept; and the mixed gas containing the water vapor passes through the heat exchanger, part of the water vapor condenses into water drops, and the water drops are adhered to fins of the heat exchanger, fall down from the fins and flow out of the indoor unit, so that the effect of cleaning the fins and other inner components of the heat exchanger can be achieved and the interior of the air conditioner is kept clean.

Description

Air-conditioning system

[technical field]

The utility model relates to field of air conditioning, particularly about a kind of air-conditioning system with humidification dedusting function.

[background technology]

Domestic air conditioning has got into huge numbers of families at present, has brought the slight chill in the air of silk silk in hot summer to people, has greatly improved people's adventure in daily life.Yet this has also brought a lot of healthy hidden danger to people.

Because people are for a long time in air-conditioned room, atmosphere draught-free, people suffer from the disease of respiratory tract aspect more easily.Though the air inlet place of the indoor set of air-conditioning is provided with screen pack, after the long-time use of air-conditioning, a lot of dusts still can be saved bit by bit in air-conditioning inside.After the user had cleaned screen pack, the indoor set inside of air-conditioning still also had a lot of dusts.Like this, even the user often keeps room ventilation,,, still can pollute to room air using the air-conditioning meeting owing to have a lot of dusts in the air-conditioning.In addition, in the air-conditioning various viruses and vegetative place, therefore use air-conditioning to bring certain hidden danger to health always.

In general, the inside of the indoor set of cleaning air-conditioning is very loaded down with trivial details, and needs the personnel of specialty to clean, and takes a lot of trouble, requires great effort, wastes resource.In addition, the time one of idle call is long, and room air will compare drying, and so long-term, the user possibly suffer from various diseases equally.

Therefore, hope to propose a kind of improved air-conditioning system that can overcome the problems referred to above.

[utility model content]

The purpose of the utility model is to provide a kind of air-conditioning system, and it can independently clean its inside, to keep cleaning inside, can guarantee indoor air humidity simultaneously.

For reaching aforementioned purpose, a kind of air-conditioning system of the utility model, it comprises indoor set and off-premises station, said indoor set comprises return air inlet, air outlet, heat exchanger, blower fan and aqueous vapor generator.Said aqueous vapor generator generates aqueous vapor, and this aqueous vapor is mixed the formation mist with the air that the return air inlet of said indoor set gets into, and this mist is seen off through said air outlet after passing said heat exchanger.

Further, said air-conditioning system has humidification dedusting pattern, and when this humidification dedusting pattern, said aqueous vapor generator just produces aqueous vapor.

Further, said air-conditioning system also has heating mode and refrigeration mode, and this humidification dedusting pattern can be carried out with refrigeration mode jointly.

Further, said air-conditioning system also has heating mode and refrigeration mode, and this humidification dedusting pattern can be carried out with heating mode jointly.

Further, said aqueous vapor generator becomes water into aqueous vapor through hyperacoustic mode.

Further, said indoor set also includes the water pond water pond, and when having the mist of aqueous vapor from said heat exchanger, to pass, the part condensation of moisture becomes on the fin of water droplet attached to said heat exchanger, falls from fin at last and flow to said water pond water pond.

Further, said off-premises station comprises compressor, four-way change-over valve; First heat exchanger and throttle mechanism are when said air-conditioning system operates in heating mode, by the high-temperature high-pressure refrigerant gas of compressor discharge; Through getting into the heat exchanger of said indoor set behind the four-way change-over valve, cold-producing medium and room air carry out being condensed into high-temperature high-pressure refrigerant liquid after the heat exchange in the heat exchanger of said indoor set, and cold-producing medium is through throttle mechanism throttling step-down afterwards; The gas-liquid two-phase state that becomes low temperature, low pressure gets into first heat exchanger; Cold-producing medium and outdoor air carry out flashing to low-temperature low-pressure refrigerant gas after the heat exchange in first heat exchanger, and cold-producing medium compresses in compressor through the air entry of four-way change-over valve entering compressor afterwards; Become the gas of HTHP, formed one thus and complete heated circulation.

Further, said off-premises station comprises compressor, four-way change-over valve; First heat exchanger and throttle mechanism are when said air-conditioning system operates in refrigeration mode, by the high-temperature high-pressure refrigerant gas of compressor discharge; Through getting into first heat exchanger behind the four-way change-over valve, cold-producing medium and outdoor air carry out being condensed into high-temperature high-pressure refrigerant liquid after the heat exchange in first heat exchanger, and cold-producing medium is through throttle mechanism throttling step-down afterwards; The gas-liquid two-phase state that becomes low temperature, low pressure gets in the heat exchanger of said indoor set; Cold-producing medium and room air carry out flashing to low-temperature low-pressure refrigerant gas after the heat exchange in the heat exchanger of said indoor set, and cold-producing medium compresses in compressor through the air entry of four-way change-over valve entering compressor afterwards; Become the gas of HTHP, formed a complete kind of refrigeration cycle thus.

Compared with prior art; Be provided with the aqueous vapor maker in the air-conditioning system of the utility model, it can generate aqueous vapor, and this aqueous vapor is mixed the formation mist with the air that the return air inlet of indoor set gets into; This mist is sent in the indoor air after passing heat exchanger, to keep air humidity.Simultaneously; Because having the mist of aqueous vapor passes from heat exchanger; The part aqueous vapor will condense on the fin of water droplet attached to heat exchanger, falls from fin at last, flows out indoor set; Can reach the fin of cleaning heat exchanger and the effect of other internal parts like this, keep the inner cleaning of air-conditioning.

[description of drawings]

Fig. 1 is that air-conditioning system among the embodiment of the utility model is at the structural principle sketch map of heating mode;

Fig. 2 is that air-conditioning system among the embodiment of the utility model is at the structural principle sketch map of refrigeration mode; With

Fig. 3 is the structural principle sketch map of the indoor set of the air-conditioning system among the embodiment of the utility model.

[specific embodiment]

For above-mentioned purpose, the feature and advantage that make the utility model can be more obviously understandable, the utility model is done further detailed explanation below in conjunction with the accompanying drawing and the specific embodiment.

Alleged here " embodiment " or " embodiment " are meant special characteristic, structure or the characteristic that can be contained at least one implementation of the utility model.Different in this manual local " in one embodiment " that occur not are all to refer to same embodiment, neither be independent or optionally mutually exclusive with other embodiment embodiment.

Fig. 1 is that air-conditioning system among the embodiment of the utility model is at the structural principle sketch map of heating mode.As shown in the figure, said air-conditioning system comprises compressor 1, four-way change-over valve 2, the first heat exchangers 4, and throttle mechanism 5, the second heat exchangers 7 are with the pipeline 3,9 and 10 of each member connection.

When air-conditioning system operates in heating mode; High-temperature high-pressure refrigerant gas by compressor 1 discharge; Get into second heat exchanger 7 through four-way change-over valve 2 and pipeline 9 backs, be condensed into high-temperature high-pressure refrigerant liquid after cold-producing medium and room air carry out heat exchange in second heat exchanger 7, this moment, second heat exchanger 7 was as condenser; Cold-producing medium is through throttle mechanism 5 throttling step-downs afterwards, and the gas-liquid two-phase state that becomes low temperature, low pressure gets into first heat exchanger 4.Flash to low-temperature low-pressure refrigerant gas after cold-producing medium and outdoor air carry out heat exchange in first heat exchanger 4; This moment, first heat exchanger 4 was as evaporimeter; Cold-producing medium gets into the air entry of compressor 1 through pipeline 3, four-way change-over valve 2 and pipeline 10 afterwards; In compressor 1, compress, become the gas of HTHP.Thus, form one and complete heated circulation.

Fig. 2 is that air-conditioning system among the embodiment of the utility model is at the structural principle sketch map of refrigeration mode.When said air-conditioning system operates in refrigeration mode; High-temperature high-pressure refrigerant gas by compressor 1 discharge; Get into first heat exchanger 4 through four-way change-over valve 2 and pipeline 3 backs, be condensed into high-temperature high-pressure refrigerant liquid after cold-producing medium and outdoor air carry out heat exchange in first heat exchanger 4, this moment, first heat exchanger 4 was as condenser; Cold-producing medium is through throttle mechanism 5 throttling step-downs afterwards, and the gas-liquid two-phase state that becomes low temperature, low pressure gets into second heat exchanger 7.Flash to low-temperature low-pressure refrigerant gas after cold-producing medium and room air carry out heat exchange in second heat exchanger 7; This moment, second heat exchanger 7 was as evaporimeter; Cold-producing medium gets into the air entry of compressor 1 through pipeline 9, four-way change-over valve 2 and pipeline 10 afterwards; In compressor 1, compress, become the gas of HTHP.Thus, formed a complete kind of refrigeration cycle.

Please combine illustrated in figures 1 and 2ly, first heat exchanger 4 in the said air-conditioning system is placed on outdoor, can be called as off-premises station, and second heat exchanger is placed 7 and is placed on indoorly, can be called as indoor set.Usually, compressor, throttle mechanism 5 also is placed on outdoor with first heat exchanger 4 with four-way change-over valve 2.The indoor set 13 of said air-conditioning system also includes aqueous vapor generator 11 and blower fan 12 except comprising second heat exchanger 7.For the air-conditioning system in clearer understanding the utility model, Fig. 3 shows the structural principle sketch map of the indoor set 13 of said air-conditioning system.

As shown in Figure 3, except second heat exchanger 7, aqueous vapor generator 11 and blower fan 12, said indoor set 13 also includes return air inlet 130, air outlet 131 and water pond water pond 132.When air-conditioning work, no matter be refrigeration mode or heating mode, under the driving of blower fan 12, the air that gets into from said return air inlet 130 passes said second heat exchanger 7 backs and is blown through said air outlet 131.

Increased a humidification/dedusting pattern in air-conditioning system described in the utility model; Under this pattern; Said aqueous vapor generator 11 can generate aqueous vapor, and this aqueous vapor is mixed the formation mist with the air that the return air inlet 130 of indoor set 13 gets into, and this mist passes second heat exchanger, 7 backs and seen off said air outlet 131; Contain like this in the air inlet chamber of aqueous vapor, thereby can keep air humidity.In concrete the application, after having used 1 hour heating mode or refrigeration mode, can air-conditioning be transferred to humidification dedusting pattern, can keep indoor air humidity like this.In addition, humidification dedusting pattern can with refrigeration mode and heating mode in any the coexistence, so both played the effect that heats or freeze, also play the effect of humidification dedusting.

Simultaneously, pass from second heat exchanger 7 owing to have the mist of aqueous vapor, the part aqueous vapor will condense on the fin of water droplet attached to second heat exchanger 7; Fall from fin at last; Flow to water pond water pond 132, flow out indoor set 13 through water pond water pond 132 afterwards, can reach the fin of cleaning second heat exchanger 7 and the effect of other internal parts like this; Keep the inner cleaning of air-conditioning, therefore this pattern also can be called as the dedusting pattern.

Said aqueous vapor generator 11 can adopt hyperacoustic principle that water is become aqueous vapor; Its operation principle is to use a transducer to convert electric energy into mechanical energy; In water, make water atomization, spread to air, reach the purpose that produces aqueous vapor in this way with a kind of very fast concussion.In addition, also can adopt the mode of pressure atomization, convert water to water smoke.Said aqueous vapor generator 11 includes the water receptacle (not shown) that is used to be filled with water, and the user can pour water in the said water receptacle into.In water receptacle, close said aqueous vapor generator 11 automatically after anhydrous, to avoid that aqueous vapor generator 11 is produced unnecessary harms.In one embodiment, can be used in water points out with indicator lamp seldom the time.

Above-mentioned explanation has demonstrated fully the specific embodiment of the utility model.It is pointed out that any change that the technical staff that is familiar with this field does the specific embodiment of the utility model does not all break away from the scope of claims of the utility model.Correspondingly, the scope of the claim of the utility model also is not limited only to previous embodiment.

Claims (10)

1. air-conditioning system, it comprises indoor set and off-premises station, it is characterized in that: said indoor set comprises return air inlet, air outlet, heat exchanger, blower fan and aqueous vapor generator,

Said aqueous vapor generator generates aqueous vapor, and this aqueous vapor is mixed the formation mist with the air that the return air inlet of said indoor set gets into, and this mist is seen off through said air outlet after passing said heat exchanger.

2. air-conditioning system as claimed in claim 1 is characterized in that: it has humidification dedusting pattern, and when this humidification dedusting pattern, said aqueous vapor generator just produces aqueous vapor.

3. air-conditioning system as claimed in claim 2 is characterized in that: it also has heating mode and refrigeration mode, and this humidification dedusting pattern can be carried out with refrigeration mode jointly.

4. air-conditioning system as claimed in claim 2 is characterized in that: it also has heating mode and refrigeration mode, and this humidification dedusting pattern can be carried out with heating mode jointly.

5. air-conditioning system as claimed in claim 1 is characterized in that: said aqueous vapor generator becomes water into aqueous vapor through hyperacoustic mode.

6. air-conditioning system as claimed in claim 1; It is characterized in that: said indoor set also includes the water pond water pond; When the mist that contains aqueous vapor passes from said heat exchanger; The part condensation of moisture becomes on the fin of water droplet attached to said heat exchanger, falls from fin at last and flow to said water pond water pond.

7. air-conditioning system as claimed in claim 1 is characterized in that: said off-premises station comprises compressor, four-way change-over valve, and first heat exchanger and throttle mechanism,

When said air-conditioning system operates in heating mode; High-temperature high-pressure refrigerant gas by the compressor discharge; Through getting into the heat exchanger of said indoor set behind the four-way change-over valve, cold-producing medium and room air carry out being condensed into high-temperature high-pressure refrigerant liquid after the heat exchange in the heat exchanger of said indoor set, and cold-producing medium is through throttle mechanism throttling step-down afterwards; The gas-liquid two-phase state that becomes low temperature, low pressure gets into first heat exchanger; Cold-producing medium and outdoor air carry out flashing to low-temperature low-pressure refrigerant gas after the heat exchange in first heat exchanger, and cold-producing medium compresses in compressor through the air entry of four-way change-over valve entering compressor afterwards; Become the gas of HTHP, formed one thus and complete heated circulation.

8. air-conditioning system as claimed in claim 1 is characterized in that: said off-premises station comprises compressor, four-way change-over valve, and first heat exchanger and throttle mechanism,

When said air-conditioning system operates in refrigeration mode; High-temperature high-pressure refrigerant gas by the compressor discharge; Through getting into first heat exchanger behind the four-way change-over valve, cold-producing medium and outdoor air carry out being condensed into high-temperature high-pressure refrigerant liquid after the heat exchange in first heat exchanger, and cold-producing medium is through throttle mechanism throttling step-down afterwards; The gas-liquid two-phase state that becomes low temperature, low pressure gets in the heat exchanger of said indoor set; Cold-producing medium and room air carry out flashing to low-temperature low-pressure refrigerant gas after the heat exchange in the heat exchanger of said indoor set, and cold-producing medium compresses in compressor through the air entry of four-way change-over valve entering compressor afterwards; Become the gas of HTHP, formed a complete kind of refrigeration cycle thus.

9. air-conditioning system as claimed in claim 1 is characterized in that: said aqueous vapor generator includes the water receptacle that is used to be filled with water.

10. air-conditioning system as claimed in claim 9 is characterized in that: in water receptacle, close said aqueous vapor generator automatically after anhydrous.

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