CN205579924U - A condensation water treatment facilities for air conditioner and air conditioner thereof - Google Patents

Abstract

The utility model discloses a condensation water treatment facilities for air conditioner and air conditioner thereof, the utility model discloses a porous hydrophilic ventilative fabric that the storage has a comdenstion water carries out the precooling to the room air, and back in the porous hydrophilic ventilative fabric who accomplishes the heat exchange with the air rotates the condensate draining can take place heat transfer and replacement renewal with the comdenstion water in the condensate draining for the porous hydrophilic ventilative fabric who is located on the air flow path is in lower temperature all the time, the utility model discloses still cool off the refrigerant that flows out from the condenser through heat exchange tube guide comdenstion water, the utility model discloses still utilize the comdenstion water to carry out the water -cooling to the condenser, thereby make full use of the low temperature energy that the comdenstion water contained, reduced energy dissipation, improved the energy utilization of air conditioner.

Description

A kind of condensate processor for air-conditioner and air-conditioner thereof

Technical field

This utility model relates to air-conditioner technical field, especially relates to a kind of condensate processor for air-conditioner and air-conditioner thereof.

Background technology

The structure of air-conditioner specifically includes that compressor, condenser, vaporizer, expansion valve and cross valve.

In process of refrigerastion, the heat exchanger being positioned at indoor is vaporizer, cold-producing medium under low temperature is at this endothermic gasification, become steam, indoor fan guides the air near vaporizer to pass in the middle of vaporizer, completes wall-type heat exchange with the cold-producing medium of flowing in vaporizer, and temperature reduces, become cold air to send, thus realize producing cold wind.In heat transfer process, it is generally the case that the moisture major part in air can condense generation condensed water.There is conversion process of energy during the generation of condensed water, in the case of damp atmosphere, about the 60% of cooling power is used for output condensed water.At present, in actual application, this partial condensation water causes outdoor discharge or indoor discharge typically by pipeline.

From the integral energy balance between revenue and expenditure angle of air-conditioner, the cold air that a part in the electric energy that air-conditioner is consumed is relatively low for producing temperature, another part is used for producing the condensed water that temperature is relatively low, the energy that condensed water is had falls within the part in air-conditioner energy balance system, directly discharge makes this portion of energy not be fully utilized, causing energy dissipation, the capacity usage ratio of air-conditioner is relatively low.

Therefore, how to make full use of the energy that condensed water is had, reduce energy dissipation, improve the capacity usage ratio of air-conditioner, reduce the quantum of output of condensed water is that those skilled in the art need badly and solve the technical problem that simultaneously.

Utility model content

The purpose of this utility model is to provide a kind of condensate processor for air-conditioner, this processing means can reclaim the portion of energy in condensed water, reduce energy dissipation, improve the capacity usage ratio of air-conditioner, condensed water can also be eliminated to greatest extent simultaneously, improve building perception and environmentally-friendly sanitary situation that air-conditioner uses.Another purpose of the present utility model is to provide a kind of air-conditioner including above-mentioned condensate processor.

For solving above-mentioned technical problem, the technical scheme that this utility model provides is:

A kind of condensate processor for air-conditioner, including porous hydrophilic permeable fiber fabric, drive roll, driven voller, upper break-in roller, lower break-in roller, condensate draining and drain pipe；

The longitudinal center line of described drive roll, described driven voller, described upper break-in roller and described lower break-in roller is all and plane-parallel, the level height of described drive roll is more than the level height of described upper break-in roller, described driven voller is arranged in described condensate draining, and two pieces of cell walls that described upper break-in roller and described lower break-in roller may be contained within described condensate draining left and right directions upwardly extend in constituted border；

Described porous hydrophilic permeable fiber fabric is wrapped on described drive roll, described driven voller, described upper break-in roller and described lower break-in roller and can rotate with described drive roll and move；

Described porous hydrophilic permeable fiber fabric between described drive roll and described upper break-in roller be arranged at moving air produced by indoor fan flow to vaporizer and eventually pass through described vaporizer flow path on, and moving air first passes through porous hydrophilic permeable fiber fabric again through vaporizer along flow path；

Described porous hydrophilic permeable fiber fabric between described drive roll and described lower break-in roller be arranged at moving air produced by indoor fan flow to vaporizer and eventually pass through described vaporizer flow path on, and moving air first passes through porous hydrophilic permeable fiber fabric again through vaporizer along flow path；

One end of described drain pipe connects with the outlet of described condensate draining and described outlet is arranged at the top of described condensate draining cell wall to ensure to retain in described condensate draining the condensed water of certain altitude liquid level；

The level height of the outlet of described condensate draining is higher than the level height of described driven voller.

Preferably, also including the condensation water pond for collecting the produced condensed water of evaporator external, described condensation water pond is arranged at the lower section of described vaporizer；When the level height of described condensation water pond is higher than the level height of described condensate draining, on described condensation water pond, the position near described drive roll is provided with for being guided by condensed water on uniform to described porous hydrophilic permeable fiber fabric or directly instilling the opening of condensate draining；When the level height of described condensation water pond is less than the level height of described condensate draining, also include the first micro pump for overcoming gravity to be evacuated in described condensate draining the condensed water in described condensation water pond, the water inlet of described first micro pump connects with described condensation water pond, and the outlet of described first micro pump connects with described condensate draining.

Preferably, also including heat exchanger tube, the water inlet end of described heat exchanger tube connects with the outlet of described condensate draining and described heat exchanger tube is sleeved on the outside of pipeline between connection condenser and expansion valve, and the water side of described heat exchanger tube connects with described drain pipe.

Preferably, the outer wall of described heat exchanger tube is enclosed with heat-preservation cotton.

Preferably, also include in order to condensed water uniform divided flows is connected with the water side of described heat exchanger tube by pipeline at the water distributing tray of described condenser surface, described water distributing tray.

Preferably, also include header tank and the second micro pump, described header tank is arranged at the lower section of described condenser, the water inlet of described second micro pump is arranged at the inner bottom part of described header tank, the outlet of described second micro pump is connected with described water distributing tray by pipeline, and one end of described drain pipe connects with the outlet of described header tank.

This utility model also provides for a kind of air-conditioner, including vaporizer, condenser, compressor, expansion valve, also includes the condensate processor for air-conditioner described in above-mentioned any one.

Compared with prior art, this utility model is by arranging porous hydrophilic permeable fiber fabric on the flow path that moving air produced by indoor fan flows to described vaporizer and eventually passes through described vaporizer, the condensed water flowed out from vaporizer can uniformly be dropped on porous hydrophilic permeable fiber fabric, the characteristic being had due to porous hydrophilic permeable fiber fabric itself, it can store a certain amount of condensed water, when the moving air that indoor fan produces flows to vaporizer, moving air can first pass through above-mentioned porous hydrophilic permeable fiber fabric, condensed water absorbing and cooling temperature by the low temperature of porous hydrophilic permeable fiber fabric storage, precooled before arriving evaporator surface, thus take full advantage of the cryogenic energy that condensed water is contained, decrease energy dissipation, improve the capacity usage ratio of air-conditioner.The level height of described drive roll is more than the level height of described upper break-in roller, make after porous hydrophilic permeable fiber water absorption of fabrics is saturated, the condensed water of follow-up drippage can flow into condensate draining along the porous hydrophilic permeable fiber fabric tilted, porous hydrophilic permeable fiber fabric is wrapped in described drive roll, described driven voller, on described upper break-in roller and described lower break-in roller and can with described drive roll rotate and move, when completing the porous hydrophilic permeable fiber fabric of heat exchange with air to after in condensate draining, can update with displacement with the condensed water generation heat exchange in condensate draining, the porous hydrophilic permeable fiber fabric being positioned in inlet air flow path is made to be in relatively low temperature all the time, thus ensure that the precooling effect to air, decrease energy dissipation, improve the capacity usage ratio of air-conditioner.

Further, the condensate processor that this utility model provides also includes heat exchanger tube, guide condensed water that the cold-producing medium flowed out from condenser is cooled down by heat exchanger tube, use the cold-producing medium before condensed water pre-cooling expansion valve, reduce cold-producing medium enthalpy, improve degree of supercooling, cold-producing medium is made to have lower temperature before entering expansion valve, after entering expansion valve, it is obtained in that the temperature and pressure more conducively evaporated, thus take full advantage of the cryogenic energy that condensed water is contained, decrease energy dissipation, improve the capacity usage ratio of air-conditioner.

Further, the condensate processor that this utility model provides also includes water distributing tray, by condensed water uniform divided flows on the outer surface of condenser, on the basis of outdoor fan carries out air cooling (air cooling) to condenser, utilize condensed water that condenser is carried out water-cooled further, thus improve the heat transfer effect of condenser, make the refrigerant temperature flowed out from condenser lower, take full advantage of the cryogenic energy that condensed water is contained, decrease energy dissipation, improve the capacity usage ratio of air-conditioner.Ideally, also condensed water all can be evaporated, eliminate condensed water to building perception and the impact of environmentally-friendly sanitary.

Further, the condensate processor that this utility model provides also includes header tank and the second micro pump, by header tank, the above-mentioned condensed water stayed from condenser outer surface is collected again, continuously the condensed water in header tank is delivered to water distributing tray by the second micro pump, repetitive cycling ground is to condenser water-cooled, thus improve the heat transfer effect of condenser, make the refrigerant temperature flowed out from condenser lower, take full advantage of the cryogenic energy that condensed water is contained, decrease energy dissipation, improve the capacity usage ratio of air-conditioner.

Accompanying drawing explanation

The operation principle schematic diagram of the air-conditioner that Fig. 1 provides for this utility model embodiment.

In figure: 1 vaporizer, 2 expansion valves, 3 condensers, 4 compressors, 5 indoor fans, 6 outdoor fans, 7 condensation water ponds, 8 porous hydrophilic permeable fiber fabrics, 9 drive rolls, 10 driven vollers, break-in roller on 11,12 times break-in rollers, 13 condensate drainings, 14 heat exchanger tubes, 16 water distributing trays, 17 room airs, 18 outdoor airs.

Detailed description of the invention

For making the purpose of this utility model embodiment, technical scheme and advantage clearer, below in conjunction with the accompanying drawing in this utility model embodiment, technical scheme in this utility model embodiment is clearly and completely described, obviously, described embodiment is a part of embodiment of the present utility model rather than whole embodiments.Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art are obtained on the premise of not making creative work, broadly fall into the scope of this utility model protection.

In description of the present utility model, it will be appreciated that, term " " center ", " axially ", " radially ", " longitudinally ", " laterally ", " length ", " width ", on " ", D score, " front ", " afterwards ", " left ", " right ", " push up ", " end ", " interior ", " outward ", " clockwise ", orientation or the position relationship of the instruction such as " counterclockwise " are based on orientation shown in the drawings or position relationship, it is for only for ease of description this utility model and simplifies description, rather than indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.

In this utility model, unless otherwise clearly defined and limited, fisrt feature second feature it " on " or D score, can include that the first and second features directly contact, it is also possible to include that the first and second features are not directly contact but by the other characterisation contact between them.And, fisrt feature second feature " on ", " top " and " above " include fisrt feature second feature surface and oblique upper, or be merely representative of fisrt feature level height higher than second feature.Fisrt feature second feature " under ", " lower section " and " below " include that fisrt feature, in the underface of second feature and obliquely downward, or is merely representative of fisrt feature level height less than second feature.

Operation principle schematic diagram with reference to the air-conditioner that Fig. 1, Fig. 1 provide for this utility model embodiment.

This utility model provides a kind of condensate processor for air-conditioner, including: porous hydrophilic permeable fiber fabric 8, drive roll 9, driven voller 10, upper break-in roller 11, lower break-in roller 12, condensate draining 13 and drain pipe.

The longitudinal center line of drive roll 9, driven voller 10, upper break-in roller 11 and lower break-in roller 12 is all and plane-parallel.Drive roll 9 is connected with motor, drives driven voller 10, upper break-in roller 11 and lower break-in roller 12 to rotate.Preferably, drive roll 9 rotates counterclockwise.

Condensate draining 13 is used for storing condensed fluid.It is provided with outlet, to allow the condensed water of excess to flow out on the side cell wall of condensate draining 13；Outlet is arranged at the top of condensate draining 13 cell wall to ensure to retain in condensate draining 13 condensed water of certain altitude liquid level.

The level height of drive roll 9 is more than the level height of upper break-in roller 11, so that the porous hydrophilic permeable fiber fabric 8 between drive roll 9 and upper break-in roller 11 constitutes a tapered plane so that the condensed water of drippage can flow into condensate draining 13 along tapered plane.This tapered plane is unsuitable with the angle of horizontal plane excessive, preferably 5 °～10 °.

Driven voller 10 is arranged in condensate draining 13, and the level height of the outlet of condensate draining 13 is higher than the level height of driven voller 10, so that driven voller 10 is immersed in the condensed water in condensate draining 13.

The level height of drive roll 9 is more than the level height of upper break-in roller 11, make when porous hydrophilic permeable fiber fabric 8 absorb water saturated after, the condensed water of follow-up drippage can flow into condensate draining 13 along the porous hydrophilic permeable fiber fabric 8 tilted, porous hydrophilic permeable fiber fabric 8 is wrapped in drive roll 9, driven voller 10, on upper break-in roller 11 and lower break-in roller 12 and can rotate with drive roll 9 and move, after the porous hydrophilic permeable fiber fabric 8 completing heat exchange with air turns in condensate draining 13, can update with displacement with the condensed water generation heat exchange in condensate draining 13, the porous hydrophilic permeable fiber fabric 8 being positioned in inlet air flow path is made to be in relatively low temperature all the time, thus ensure that the cooling effect to air, decrease energy dissipation, improve the capacity usage ratio of air-conditioner.

When upper break-in roller 11 rotates with lower break-in roller 12, inevitably porous hydrophilic permeable fiber fabric 8 can be caused certain extruding, the condensed fluid of porous hydrophilic permeable fiber fabric 8 storage can be extruded outflow, in order to prevent this partial condensation drop from falling the outside of condensate draining 13, in this utility model, two pieces of cell walls that upper break-in roller 11 and lower break-in roller 12 may be contained within condensate draining 13 left and right directions upwardly extend in constituted border, to guarantee that the condensed water being extruded outflow can all fall after rise to condensate draining 13.

Porous hydrophilic permeable fiber fabric 8 is wrapped on drive roll 9, driven voller 10, upper break-in roller 11 and lower break-in roller 12 and can rotate with drive roll 9 and moves.

Porous hydrophilic permeable fiber fabric 8 between drive roll 9 and upper break-in roller 11 be arranged at moving air produced by indoor fan 5 flow to described vaporizer 1 and eventually pass through described vaporizer 1 flow path on；Porous hydrophilic permeable fiber fabric 8 between drive roll 9 and lower break-in roller 12 be arranged at moving air produced by indoor fan 5 flow to described vaporizer 1 and eventually pass through described vaporizer 1 flow path on.I.e. porous hydrophilic permeable fiber fabric 8 may be contained within moving air produced by indoor fan 5 flow to described vaporizer 1 and eventually pass through described vaporizer 1 flow path on, i.e. moving air first passes through porous hydrophilic permeable fiber fabric 8 along above-mentioned flow path, again through vaporizer 1, it is arranged such, its protection domain includes all existing indoor fans 5 and the arrangement of vaporizer 1 and cooperating mode: indoor fan 5 as shown in Figure 1 is in the lower section of vaporizer 1, indoor fan 5 is to vaporizer 1 actively air-supply, the moving air that indoor fan 5 produces moves from bottom to top and eventually passes through vaporizer 1；Such as on-hook, indoor fan produces suction and guides air from top to bottom through vaporizer；Such as four blowing machines, air draught flows from inside to outside；Etc..

This utility model is by flowing to described vaporizer 1 at moving air produced by indoor fan 5 and eventually passing through and arrange porous hydrophilic permeable fiber fabric 8 on the flow path of described vaporizer, the condensed water flowed out from vaporizer 1 can uniformly be dropped on porous hydrophilic permeable fiber fabric 8, the characteristic itself being had due to porous hydrophilic permeable fiber fabric 8, it can store a certain amount of condensed water, when the moving air that indoor fan 5 produces flows to vaporizer 1, air can first pass through above-mentioned porous hydrophilic permeable fiber fabric 8, the condensed water absorbing and cooling temperature of the low temperature stored by porous hydrophilic permeable fiber fabric 8, precooled before arriving vaporizer 1 surface, thus take full advantage of the cryogenic energy that condensed water is contained, decrease energy dissipation, improve the capacity usage ratio of air-conditioner.

Preferably, condensate draining 13 adds anti-mildew medicine, can be slow releasing tablet or microdroplet liquor or the medicine preventing from going mouldy of other form.

Preferably, also including the condensation water pond 7 for collecting the produced condensed water of evaporator external, described condensation water pond 7 is arranged at the lower section of described vaporizer 1；When the level height of described condensation water pond 7 is higher than the level height of described condensate draining 13, on described condensation water pond 7, the position near described drive roll 9 is provided with for being guided by condensed water on uniform to described porous hydrophilic permeable fiber fabric 8 or directly instilling the opening of condensate draining 13；When the level height of described condensation water pond 7 is less than the level height of described condensate draining, also include the first micro pump for overcoming gravity to be evacuated in described condensate draining the condensed water in described condensation water pond, the water inlet of described first micro pump connects with described condensation water pond, and the outlet of described first micro pump connects with described condensate draining, it is arranged such, to prevent the non-condensed waters caused that arrange from high to low such as vaporizer, condensate draining, blower fan from cannot realize in flow by gravity mode.

In an embodiment of the present utility model, the condensate processor that this utility model provides also includes heat exchanger tube 14, the water inlet end of heat exchanger tube 14 connects with the outlet of condensate draining 13 and heat exchanger tube 14 is sleeved on the outside of pipeline between connection condenser 3 and expansion valve 2, and the water side of heat exchanger tube 14 connects with drain pipe.

The condensate processor that this utility model provides also includes heat exchanger tube 14, guide condensed water that the cold-producing medium flowed out from condenser 3 is cooled down by heat exchanger tube 14, on the basis of cold-producing medium is cooled by condenser 3, use condensed water that cold-producing medium is cooled further, cold-producing medium is made to have lower temperature before entering expansion valve 2, after entering expansion valve 2, obtain the temperature and pressure being more conducive to evaporation, thus take full advantage of the cryogenic energy that condensed water is contained, decrease energy dissipation, improve the capacity usage ratio of air-conditioner.

Preferably, the outer wall of heat exchanger tube 14 is enclosed with heat-preservation cotton, heats up to prevent the condensed water in heat exchanger tube 14 from absorbing the heat in surrounding air, reduce the cooling capacity of self.

In an embodiment of the present utility model, the condensate processor that this utility model provides also includes that water distributing tray 16 is connected with the water side of heat exchanger tube 14 by pipeline in order to by the condensed water uniform divided flows water distributing tray 16 on condenser 3 surface.The structure of water distributing tray 16 is not particularly limited by this utility model, it is possible to shunted equably on the outer surface of condenser 3 by condensed water.

The condensed water by upstream row is come that act as of water distributing tray is evenly distributed in condenser surface.First having to ensure that the water in water distributing tray is uniform, the measure that can take is that high level degree is installed and dish inner bottom arranges hydrophilic coating or hydrophilic fibers fabric.This utility model preferred hydrophilic fibers fabric, utilizes fluid tension uniformly to coagulate water.It addition, water is wanted to contact with condenser and compressor uniformly, this requires there is the aperture being evenly arranged at the bottom of water distributing tray, makes condensed water flow to condenser and compressor in a contact fashion.Condenser and compressor surface hydrophilic coating to be scribbled simultaneously, wet liquid uniformly and can be fully contacted in its surface distributed.The most optimal purpose is to be evaporated by condensed water at this heat transfer process.

This utility model by by condensed water uniform divided flows on the outer surface of condenser 3, blow on the basis of outdoor air 18 carries out air cooling (air cooling) to condenser 3 at outdoor fan 6 to condenser, utilize condensed water that condenser 3 is carried out water-cooled further, thus improve the heat transfer effect of condenser 3, make the refrigerant temperature flowed out from condenser 3 lower, take full advantage of the cryogenic energy that condensed water is contained, decrease energy dissipation, improve the capacity usage ratio of air-conditioner.

In an embodiment of the present utility model, the condensate processor that this utility model provides also includes header tank and the second micro pump, header tank is arranged at the lower section of condenser 3, the water inlet of the second micro pump is arranged at the inner bottom part of header tank, the outlet of the second micro pump is connected with water distributing tray 16 by pipeline, and one end of described drain pipe connects with the outlet of described header tank.

The above-mentioned condensed water stayed from condenser 3 outer surface is again collected by this utility model by header tank, continuously the condensed water in header tank is delivered to water distributing tray 16 by the second micro pump, repeat condenser 3 water-cooled, thus improve the heat transfer effect of condenser 3, make the refrigerant temperature flowed out from condenser 3 lower, take full advantage of the cryogenic energy that condensed water is contained, decrease energy dissipation, improve the capacity usage ratio of air-conditioner.

If condensation water quantity is big so that when in said process, surface tension cannot keep condensed water here, condensed water is just collected and is entered following header tank.Arrive the condensed water after header tank, be preferably promoted to water distributing tray and again participate in the cooling heat transferring of condenser and compressor, or after excess, overflow is got rid of.

One end of drain pipe connects with the outlet of header tank and outlet is arranged at the top of header tank tank wall to ensure to retain in header tank the condensed water of certain altitude liquid level.When the volume of condensed water exceeds the dischargeable capacity of header tank, the condensed water of excess can drain into outdoor along drain pipe.

This utility model additionally provides a kind of air-conditioner, including the vaporizer 1 being sequentially communicated by pipeline, condenser 3, compressor 4 and expansion valve 2, also includes the above-mentioned condensate processor for air-conditioner.

Comprising multiple technical scheme in this utility model, multiple laddering technical schemes are mutually combined superposition, cooperate between technical scheme, mutually promote, forming an overall plan, the technique effect of acquirement is much better than the technique effect of an any of the above described technical scheme, and synergistic effect is notable.

The method and apparatus of the most detailed description of this utility model is prior art, repeats no more.

Principle of the present utility model and embodiment are set forth by specific embodiment used herein, and the explanation of above example is only intended to help to understand method of the present utility model and core concept thereof.Should be understood that; for those skilled in the art; on the premise of without departing from this utility model principle, it is also possible to this utility model is carried out some improvement and modification, these improve and modification also falls in this utility model scope of the claims.

Claims (7)

1. the condensate processor for air-conditioner, it is characterised in that include porous hydrophilic permeable fiber fabric, drive roll, driven voller, upper break-in roller, lower break-in roller, condensate draining and drain pipe；

The longitudinal center line of described drive roll, described driven voller, described upper break-in roller and described lower break-in roller is all and plane-parallel, the level height of described drive roll is more than the level height of described upper break-in roller, described driven voller is arranged in described condensate draining, and two pieces of cell walls that described upper break-in roller and described lower break-in roller may be contained within described condensate draining left and right directions upwardly extend in constituted border；

Described porous hydrophilic permeable fiber fabric is wrapped on described drive roll, described driven voller, described upper break-in roller and described lower break-in roller and can rotate with described drive roll and move；

Described porous hydrophilic permeable fiber fabric between described drive roll and described upper break-in roller be arranged at moving air produced by indoor fan flow to vaporizer and eventually pass through described vaporizer flow path on, and moving air first passes through porous hydrophilic permeable fiber fabric again through vaporizer along flow path；

Described porous hydrophilic permeable fiber fabric between described drive roll and described lower break-in roller be arranged at moving air produced by indoor fan flow to described vaporizer and eventually pass through described vaporizer flow path on, and moving air first passes through porous hydrophilic permeable fiber fabric again through vaporizer along flow path；

One end of described drain pipe connects with the outlet of described condensate draining and described outlet is arranged at the top of described condensate draining cell wall to ensure to retain in described condensate draining the condensed water of certain altitude liquid level；

The level height of the outlet of described condensate draining is higher than the level height of described driven voller.

A kind of condensate processor for air-conditioner the most according to claim 1, it is characterised in that also including the condensation water pond for collecting the produced condensed water of evaporator external, described condensation water pond is arranged at the lower section of described vaporizer；When the level height of described condensation water pond is higher than the level height of described condensate draining, on described condensation water pond, the position near described drive roll is provided with for being guided by condensed water on uniform to described porous hydrophilic permeable fiber fabric or directly instilling the opening of condensate draining；When the level height of described condensation water pond is less than the level height of described condensate draining, also include the first micro pump for overcoming gravity to be evacuated in described condensate draining the condensed water in described condensation water pond, the water inlet of described first micro pump connects with described condensation water pond, and the outlet of described first micro pump connects with described condensate draining.

A kind of condensate processor for air-conditioner the most according to claim 1, it is characterized in that, also include heat exchanger tube, the water inlet end of described heat exchanger tube connects with the outlet of described condensate draining and described heat exchanger tube is sleeved on the outside of pipeline between connection condenser and expansion valve, and the water side of described heat exchanger tube connects with described drain pipe.

A kind of condensate processor for air-conditioner the most according to claim 3, it is characterised in that be enclosed with heat-preservation cotton on the outer wall of described heat exchanger tube.

A kind of condensate processor for air-conditioner the most according to claim 3, it is characterised in that also include in order to condensed water uniform divided flows is connected with the water side of described heat exchanger tube by pipeline at the water distributing tray of described condenser surface, described water distributing tray.

A kind of condensate processor for air-conditioner the most according to claim 5, it is characterized in that, also include header tank and the second micro pump, described header tank is arranged at the lower section of described condenser, the water inlet of described second micro pump is arranged at the inner bottom part of described header tank, the outlet of described second micro pump is connected with described water distributing tray by pipeline, and one end of described drain pipe connects with the outlet of described header tank.

7. an air-conditioner, including vaporizer, condenser, compressor, expansion valve, it is characterised in that also include the condensate processor for air-conditioner described in claim 1～6 any one.