CN2762053Y - Environmental protection energy-saving type air conditioner - Google Patents

Abstract

The utility model discloses an environment protection energy saving type air conditioner. The surfaces of an evaporator and a condenser fin are painted with a nano inorganic compounded catalysis film layer, the nano inorganic compounded catalysis film is titania nano liquor using alcohol as dissolvant, and the compounded catalysis film coating layer presents various colors. The fin coating layer of the utility model can keep excellent refrigerating effect when used for a long time; the nano titania is inorganic material, and the coating layer is tightly glued with the fin and can be effective for a long time; so a heat exchanger is highly effective for a long time; the coating layer has a sterilization function and can make the air conditioner blow out sterilized wind.

Description

A kind of environmentally-friendly and energy-saving air conditioner device

Technical field

The utility model relates to a kind of air-conditioner, is specifically related to a kind of environmentally-friendly and energy-saving air conditioner device of heat exchanger fin face coat.

Background technology

Along with the appearance of national efficiency system, domestic air conditioner develops to the direction of energy saving.In order to increase the exchange capability of heat of heat exchanger, air-conditioning producer adopts the increase heat exchange area usually, adopts methods such as efficient hydrophilic aluminium foil fin.

By reducing the evaporator fin spacing, increase the heat exchange area of evaporimeter, normally the hydrophilic layer fin of organic coating can only use a period of time, after hydrophilic layer comes off, moisture film thickens on the fin, and the chance of condensed water between fin " bridging " increases, and windage increases, ultra-fine in addition dust is long-pending to be built at fin surface, and the evaporimeter exchange capability of heat weakens.The consumer feels that idle call air-out after a period of time is not cool, is exactly this reason, and What is more, is with the globule in the air-out.Though the hydrophilic layer of inorganic coating can use all the life, fin processing is very big to the wearing and tearing of mould, and producer considers from die cost how not use.

Moreover the evaporator fin surface moisture, the easiest breed bacteria.After the SARS, the consumer also payes attention to more to the health of air-conditioning air-out.The fin coating that is provided as Chinese ZL02151903.X item patent " hydrophilic coating of air-conditioning heat exchange fin ", though it has Superhydrophilic, coating is organic film entirely, thickness tens nanometers, do not damage mould used in the fin process, but it long-lastingly still can not guarantee as organic coating for it, and also has escaping gas to emit, so the cleanliness of air-conditioning wind is also had infringement; And the used hydrophilic membrane of Chinese ZL95200520.4 item patent " air-condition heat exchanger hydrophilic aluminium foil " disclosed heat exchanger fin makes the contact angle of the condensation globule and fin little, but still there are the problems referred to above in it.

Condenser heat exchange environment is poorer than evaporimeter, and air is directly blown over fin surface, and fin cracks and locates to be easy to laying dust, and the time is long more, and laying dust is many more, long-pending full whole fin.The hydrophilic all the same laying dust of the hydrophilic also right and wrong of condenser fin, through rain drop erosion, dust and fin are tied tightlyer, and existing air-conditioner does not all have substantive breakthroughs to this respect.

The utility model content

Technical problem to be solved in the utility model provides a kind of good effect of heat exchange, has the environmentally-friendly and energy-saving air conditioner device of sterilization.

The utility model is achieved through the following technical solutions:

A kind of environmentally-friendly and energy-saving air conditioner device, comprise heat exchanger, be sprayed with the composite catalyzing membrane coat of nano-titanium argentine ion coating at the fin surface of air-condition heat exchanger, nano-titanium argentine ion coating be a kind of be the titanium dioxide nano-particle solution of solvent with alcohol, nano-titanium argentine ion coating for good and all solidifies in conventional fin surface by certain spraying coating process, form the composite catalyzing membrane coat, described fin is made by light paper tinsel or hydrophilic aluminium foil.

The utility model compared with prior art has following remarkable result:

1, the catalytic membrane of spraying one deck nano-titanium argentine ionic coating on heat exchanger fin, containing under the ultraviolet illumination, catalytic membrane can present Superhydrophilic (often claiming hydrophobicity), makes fin have self-cleaning performance, and the long-term use of air-conditioner still can keep good refrigeration;

2,, so just kept the long-term efficient of heat exchanger because nano titanium oxide is an inorganic material, and coating and fin tight bond can be effective all the life;

3, this coating has sterilization, can make air-conditioning blow out aseptic clean wind.

Description of drawings

Fig. 1: the utility model air-condition heat exchanger fin schematic diagram;

The schematic cross-section of Fig. 2: Fig. 1.

The specific embodiment

The utility model is described in further detail below by embodiment.

On the fin 1 of evaporimeter that has air-conditioner now and condenser,, form one deck composite catalyzing membrane coat 2 at fin surface by certain technology spraying nano-titanium argentine ion coating.

Heat exchanger fin is light paper tinsel or hydrophilic aluminium foil material, nano-titanium argentine ion coating be a kind of be the titanium dioxide nano-particle solution of solvent with alcohol, nano-titanium argentine ion coating for good and all solidifies in conventional fin surface by certain spraying coating process, form the composite catalyzing membrane coat, the composite catalyzing membrane coat can present shades of colour.

But the utility model composite catalyzing membrane coat attenuate the water layer of evaporator fin, the surperficial laying dust of evaporator fin has also been taken away by water layer, and nano titanium oxide is inorganic material, inorganic coating and fin tight bond, can be effective all the life, just kept the long-term efficient of evaporimeter.This coating makes airborne oxygen activation, produces active oxygen and OH free radical with very high reactivity, and stronger sterilizing function is arranged.This sterilizing function is better under illumination, and unglazed also have an effect, can make air-conditioning blow out aseptic clean wind.This composite catalyzing membrane coat also has good self-cleaning performance, can make organic matter degradation go out moisture.Utilize this self-cleaning performance, condenser is once rain drop erosion, and the dust on the fin is removed at once, and this has just kept the cleaning on condenser fin surface, thereby has kept the heat exchange effect of condenser.

Utilize disinfection and hydrophobic (super hydrophilic) ability of nano material uniqueness can make the air-conditioner environmental protection and energy saving, this nano-material coating can be widely used in split on-hook, split cabinet-type air conditioner and the window machine.

Claims (3)

1, a kind of environmentally-friendly and energy-saving air conditioner device comprises heat exchanger, it is characterized in that: be coated with nano inorganic composite catalyzing rete (2) on the surface of described heat exchanger fin (1).

2, environmentally-friendly and energy-saving air conditioner device according to claim 1 is characterized in that: described nano inorganic catalytic membrane be a kind of be the titanium dioxide nano-particle solution of solvent with alcohol.

3, environmentally-friendly and energy-saving air conditioner device according to claim 1 is characterized in that: described heat exchanger fin is the fin of light paper tinsel or hydrophilic aluminium foil material.

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