CN101881501B - Cleaning liquid storage tank for auto cleaning device and air conditioner having the same - Google Patents

Abstract

The present invention provides a cleaning liquid storage tank for an automatic cleaning device and an air conditioner having the storage tank. A housing of the cleaning liquid storage tank is provided with a valve unit, an electrolyte supply unit, a pump unit and a disinfection water generating unit to form one assembly, so as to improve reliability and production efficiency of the air conditioner.

Description

The cleaning fluid storage bin of automatic flushing device and there is the air conditioner of this storage bin

Technical field

The present invention relates to a kind of air conditioner, relate in particular to the cleaning fluid storage bin of the automatic flushing device that utilizes condensed water sterilization and clean indoor heat converter and there is the air conditioner of this storage bin.

Background technology

Conventionally, air conditioner is in order to build comfortable indoor environment by freezing or heating the interior space, utilizes the refrigerant-cycle systems being made up of compressor, condenser, expansion valve and evaporimeter to the indoor device that freezes or heat.

In the time that air conditioner refrigeration moves, on evaporimeter because of the heat exchange condensed water that condenses.But, when air conditioner is out of service, due to condensed water absorption foreign matter, the therefore microorganism such as breed bacteria, fungi on evaporimeter.

This microorganism emits bad smell in the time of operation of air-conditioner, makes user produce unhappy sense.Therefore, providing recently can be to the device of evaporimeter automatic sterilizing.

As automatic flushing device, provide is sprayed the device of sterilized water or washings to evaporimeter by injection apparatus such as sprayers at present.And, researching and developing recently the automatic flushing device using as cleaning fluid after the condensed water producing on evaporimeter is stored in cleaning fluid storage bin.

Summary of the invention

The present invention proposes in order to address the above problem, and its object is to provide a kind of and utilizes condensed water to sterilize and clean the multi-functional cleaning fluid storage bin that the automatic flushing device of indoor heat converter is provided with.

Another aspect of the present invention provides a kind of air conditioner with above-mentioned cleaning fluid storage bin.

To achieve these goals, according to the cleaning fluid storage bin of the automatic flushing device of the embodiment of the present invention, comprising: housing, this housing has the storage area that stores the cleaning fluid for cleaning heat exchanger; Flow control module, for control be stored in described storage area cleaning fluid flow; Processing unit, for the treatment of the cleaning fluid being stored in described storage area, to change at least one in physical property and the chemical property of described cleaning fluid; Wherein, described mobile control module and described processing unit are installed in described housing and form an assembly.

And, described mobile control module comprise to the upper end pump purt of described heat exchanger be stored in the pump unit of the described cleaning fluid in described storage area and in order to store described cleaning fluid in described storage area for opening and closing at least one of valve unit of the discharge outlet that is arranged on described housing.

And described processing unit comprises to described storage area to be provided electrolytical electrolyte feed unit and is made to be stored in described cleaning fluid in described storage area and become at least one in the sterilized water generation unit of sterilized water by electrolysis.

And, also comprise for filtering to the filter unit of the described rinse water of described sterilized water generation unit and the inflow of described pump unit; Wherein, described filter unit is arranged on described housing, and forms an assembly with described housing, described mobile control module and described processing unit.

And at least one is arranged on the outside of described storage area in described pump unit, described sterilized water generation unit and described valve unit.

And at least one is arranged on the inside of described storage area in described pump unit, described sterilized water generation unit and described filter unit.

And a side direction opposite side of the base plate face of described storage area is downward-sloping, the opposite side of described base plate face is formed with described discharge outlet.

And the described cleaning fluid that described sterilized water generation unit makes to be stored in described storage area by electrolysis becomes at least one in acid water, alkaline water, silver ionized water, Ozone Water and OH free radical water.

And described filter unit is releasably arranged on described housing.

And described valve unit comprises the first valve of the switching of controlling described discharge outlet, in order to open and close the second valve of the brine electrolysis outlet being arranged on described housing to cleaning fluid described in described valve unit side inflow.

And the valve outlet of described valve unit is arranged on the lower position of valve inflow entrance of comparing described valve unit, the pump discharge of described pump unit is arranged on the lower position of brine electrolysis inflow entrance of comparing described sterilized water generation unit.

And the bottom of described housing is provided with sub-panel, this sub-panel is provided with the accommodation space of the described cleaning fluid for collecting the tube connector leakage from connecting respectively described valve unit, described pump unit and described sterilized water generation unit.

And described housing is provided with the brine electrolysis outlet that includes described electrolytical described cleaning fluid for discharging, a sidewall of the described housing of facing mutually with described brine electrolysis outlet is provided with the filter insertion section of releasably inserting described filter unit.

And, described filter unit comprises columnar screen pack, one end of described screen pack arranges and is formed with externally threaded flange portion, and the other end of described screen pack is provided with the seal member that surrounds described brine electrolysis outlet and be close to the inner surface of the described housing of the surrounding of described brine electrolysis outlet.

And described filter unit is arranged to the structure that can pass in and out by the space of the opening on top, described storage area.

And described filter unit comprises tetragonal screen pack and for surrounding the framework at described screen pack edge, and is formed with respectively the sliding tray for inserting described framework on the inwall of facing mutually of described storage area.

And, described filter unit is arranged to multiple, and is arranged on that to compare the described screen pack of remaining described filter unit near the sieve aperture of the described screen pack of filter unit described at least one of described pump unit and described sterilized water generation unit side less.

And, also comprising that the upside that is incorporated into described housing is to seal the cap of the open part in top, described storage area, a side of this cap is provided with the condensation flow entrance for flowing into described cleaning fluid.

And, also comprise multiple guiding ribs that inwall one lower-upper length side-prominent and that form from described storage area is long, be arranged on a side of described cap and for flow into the guided plate of the described cleaning fluid of described condensation flow entrance to described guiding rib side guiding.

And described guided plate comprises the first plate of extending from a side direction downside of described condensation flow entrance, have a down dip and the second plate of extending from the end of described the first plate to described guiding rib side direction.

And top one side of described housing is provided with the spillway hole of discharging described cleaning fluid when the described cleaning fluid being stored in described storage area reaches certain water level.

And, described spillway hole towards the lower side of described housing to and form so that the described cleaning fluid being stored in described storage area is discharged along vertical direction.

And the valve flow export of described valve unit is provided with the connected entrance being communicated with described spillway hole.

And described storage area comprises: store the first storage area for described heat exchanger being carried out to the described cleaning fluid of sterilization or cleaning; The second storage area being separated out from described the first storage area by partition frame, when be stored in described cleaning fluid in described the first storage area reach datum level when above for discharging described cleaning fluid.

And described partition frame separates and arranges from the inwall of described housing.

And, also comprise guidance unit, for the described cleaning fluid that flows to described storage area being guided to described the first storage area or described the second storage area.

And, also comprise the part of the opening of sealing top, described storage area and be provided with the cap of the condensation flow entrance for flowing into described cleaning fluid.

And described guidance unit comprises: can be rotatably set in the guide member of described condensation flow entrance bottom, this guide member is provided with the mobile stream portion of described cleaning fluid that makes inflow; For rotating the drive unit of described guide member.

And air conditioner according to a further aspect in the invention comprises main body, be arranged on the indoor heat converter of described body interior, be collected in the condensed water producing on described indoor heat converter draining tray, there is the cleaning fluid storage bin of the housing that is formed with the storage area for storing the described condensed water flowing down from described draining tray, spray the injection unit of sterilized water to described indoor heat converter.And, be respectively equipped with at described housing as an assembly: the pump unit that is stored in the described condensed water in described storage area to described injection unit side pump purt; Make to be stored in described condensed water in described storage area by electrolysis and become the sterilized water generation unit of described sterilized water; Filter the filter unit of the foreign matter in the described condensed water flowing into described sterilized water generation unit and described pump cell side; Valve unit, opens and closes in order to discharge the described condensed water storing in described storage area for controlling the discharge outlet arranging.

And at least one is arranged on the outside of described storage area in described pump unit, described sterilized water generation unit and described valve unit.

And at least one is arranged on the inside of described storage area in described pump unit, described sterilized water generation unit and described filter unit.

And the base plate of described storage area is downward-sloping towards described discharge outlet.

And described filter unit is releasably arranged on described housing.

And, on described housing, be also provided with to the described condensed water being stored in described storage area and supply with electrolytical electrolyte feed unit.

And described housing is provided with the brine electrolysis outlet that includes described electrolytical described condensed water for discharging, and described valve unit comprise the switching of controlling described discharge outlet the first valve, open and close the second valve of described brine electrolysis outlet.

And, described the second valve comprises the second valve inflow entrance being communicated with described brine electrolysis outlet, the second valve door row being communicated with the pump inflow entrance of described pump unit outlet, and described pump unit comprises the pump discharge being communicated with the brine electrolysis inflow entrance of described sterilized water generation unit.

And the outlet of second valve door row is arranged on compares the lower position of described valve inflow entrance, described pump discharge is arranged on compares the lower position of described brine electrolysis inflow entrance.

And the bottom of described housing is provided with sub-panel, the described condensed water that this sub-panel leaks for the tube connector of collecting from connecting respectively described valve unit, described pump unit and described sterilized water generation unit.

And, filter insertion section on the sidewall that described housing is provided with the brine electrolysis outlet that includes described electrolytical described condensed water for discharging, be arranged on the described housing of facing mutually with described brine electrolysis outlet, releasably arranges described filter unit by described filter insertion section.

And the inwall of facing mutually of described storage area is provided with sliding tray, described filter unit is is slidably loaded and unloaded and is arranged on described sliding tray by the space of the opening on top, described storage area.

And, described filter unit is arranged to multiple, and is arranged on that to compare the remaining described screen pack of described filter unit near the sieve aperture of the described screen pack of filter unit described at least one of described pump unit and described sterilized water generation unit side less.

And, also comprising the cap that is incorporated into the downside of described draining tray and seals the part of the opening on top, described storage area, a side of this cap is provided with the condensation flow entrance being communicated with the osculum of described draining tray.

And, inwall one side of described storage area is provided with the long multiple guiding ribs of lower-upper length outstanding from described inwall and that form, and a side of described condensation flow entrance is provided with the guided plate for guide the described condensed water flowing down from described draining tray to described guiding rib side.

And, top one side of described housing be provided with in the time being stored in described condensed water in described storage area and reaching datum level described in condensed water can Natural excrement spillway hole.

And, described spillway hole towards the lower side of described housing to and form so that described condensed water is discharged along vertical direction.

And described valve unit comprises the valve flow export being connected with the drainpipe of discharging described condensed water to space outerpace, described valve flow export is provided with the connected entrance being communicated with described spillway hole.

And described storage area comprises: store the first storage area for described indoor heat converter being carried out to the described condensed water of sterilization or cleaning; The second storage area being separated out from described the first storage area by partition frame, when the described condensed water being stored in described the first storage area reaches more than datum level for discharging described condensed water.

And, also comprising the cap that is incorporated into described draining tray downside and seals the part of the opening on top, described storage area, a side of described cap is provided with the condensation flow entrance being communicated with the osculum of described draining tray.

And, also comprise for guiding to the guidance unit of described the first storage area or described the second storage area by the low described condensed water of described osculum, described guidance unit comprise can be rotatably set in described condensation flow entrance bottom and be provided with make the guide member of the mobile stream portion of described condensed water, for rotating the drive unit of described guide member.

In sum, according to the cleaning fluid storage bin of the automatic flushing device of the embodiment of the present invention, owing to being arranged to a unit in order to the component parts of sterilization and cleaning indoor heat converter, therefore can enhance productivity.

And, according to the cleaning fluid storage bin of the automatic flushing device of the embodiment of the present invention, can utilize simple structure and reduce the noise that drips of condensed water.

And, according to the cleaning fluid storage bin of the automatic flushing device of the embodiment of the present invention, due to the structure having for preventing that condensed water from overflowing, therefore can improve reliability.

Brief description of the drawings

Fig. 1 is the stereogram that schematically illustrates the outward appearance of the air conditioner of the embodiment of the present invention;

Fig. 2 is the stereogram that schematically illustrates the internal structure of the air conditioner of first embodiment of the invention;

Fig. 3 is the exploded perspective view of the cleaning fluid storage bin of the air conditioner of first embodiment of the invention;

Fig. 4 is the top view of the cleaning fluid storage bin of the air conditioner of first embodiment of the invention;

Fig. 5 is the schematic diagram that the filter unit of the cleaning fluid storage bin of the air conditioner that is arranged on first embodiment of the invention is shown;

Fig. 6 is the schematic diagram that the effect of the noise peventing member of dripping of first embodiment of the invention is shown;

Fig. 7 is the schematic diagram that the spillway hole of the cleaning fluid storage bin of the variation of first embodiment of the invention is shown;

Fig. 8 to Figure 10 is the schematic diagram of the water overflowing structure of the cleaning fluid storage bin of second embodiment of the invention;

Figure 11 is the schematic diagram of the partition frame that is used to form the second storage area of the variation of second embodiment of the invention;

Figure 12 is the exploded perspective view of the cleaning fluid storage bin of third embodiment of the invention;

Figure 13 is the cutaway view of the cleaning fluid storage bin of third embodiment of the invention.

Main symbol description: 10 is main body, 40 is indoor heat converter, 50 is draining tray, 51 is osculum, 60 is injection unit, 100 is cleaning fluid storage bin, 110 is housing, 111 is storage area, 112 is the first storage area, 113 is the second storage area, 117 is brine electrolysis outlet, 118 is filter insertion section, 119 is spillway hole, 121 is partition frame, 125 is guiding rib, 126 is guided plate, 130 is valve unit, 134 is connected entrance, 140 is electrolyte feed unit, 150 is pump unit, 160 is sterilized water generation unit, 170 is sub-panel, 180 is filter unit, 190 is cap, 210 is guide member, 230 is drive unit.

Detailed description of the invention

Below, with reference to accompanying drawing, the cleaning fluid storage bin of automatic flushing device of the present invention described above be described and there is the technological thought of the air conditioner of this storage bin.

Fig. 1 is the stereogram that schematically illustrates the outward appearance of the air conditioner of the embodiment of the present invention, and Fig. 2 is the stereogram that schematically illustrates the internal structure of the air conditioner of first embodiment of the invention.

With reference to Fig. 1 and Fig. 2, the air conditioner of the embodiment of the present invention comprises: the main body 10 of open at its front; Be arranged on the air exhaust units 30 of the lower space of main body 10 inside; Be arranged on the indoor heat converter 40 of the upper space of main body 10 inside; For hiding the front panel 20 above of the main body 10 of being opened.

The two sides, bottom of front panel 20 are formed with the air suction inlet 21 for sucking room air, and two sides, top are provided with the air outlet 23 that has carried out the air of heat exchange by indoor heat converter 40 for discharging.

Air outlet 23 is provided with the blade 25 of the direction of air for regulating discharge.

Air exhaust units 30 comprises ventilating fan 31 and ventilating fan air channel 33, in order to suck room air by air suction inlet 21, then this air is discharged to the indoor heat converter 40 on top.

The bottom of indoor heat converter 40 is provided with the draining tray 50 of collecting the condensed water producing on indoor heat converter 40.

In addition, the air conditioner of the embodiment of the present invention has automatic flushing device, in order to remove the microorganism (bacterium, fungi, virus) growing on indoor heat converter 40 or to clean indoor heat converter 40.

Automatic flushing device comprises: be arranged on the cleaning fluid storage bin 100 of draining tray 50 bottoms, for being stored in the condensed water producing on indoor heat converter 40; Be arranged on the injection unit 60 on indoor heat converter 40 tops, for spraying to indoor heat converter 40 condensed water that is stored in cleaning fluid storage bin 100.

Cleaning solution storage bin 100 is close proximity to the lower surface setting of draining tray 50, so that cleaning solution storage bin 100 can directly reclaim condensed water from draining tray 50, and during to the stored condensed water of the injection unit 60 side pump purts that are arranged on indoor heat converter 40 tops, can at utmost shorten the length of required pipe arrangement.

Fig. 3 is the exploded perspective view of the cleaning fluid storage bin of the air conditioner of first embodiment of the invention, Fig. 4 is the top view of the cleaning fluid storage bin of the air conditioner of first embodiment of the invention, and Fig. 5 is the schematic diagram that the filter element of the cleaning fluid storage bin of the air conditioner that is arranged on first embodiment of the invention is shown.

Cleaning fluid storage bin 100 of the present invention not only has in order to sterilize and/or to clean indoor heat converter 40 and the effect of storage condensed water, and form a composition cover unit owing to the component parts of automatic flushing device being installed on cleaning fluid storage bin 100, therefore can improve convenience and assembling while automatic flushing device being set on air conditioner.

And, when a certain parts of automatic flushing device break down, owing to can dismantling easily component parts, be therefore convenient to carry out after-sale service.

With reference to Fig. 3 and Fig. 4, cleaning fluid storage bin 100 inside are provided with storage area 111, and comprise the housing 110 that top is open.

Housing 110 is roughly box-shaped, and the vertical frame 115 that has base plate face 114 and extend to upside from the edge of base plate face 114, forms thus the storage area 111 that stores condensed water.

Base plate face 114 is from the downward-sloping predetermined angle of a side direction opposite side (approximately 2 °～10 °), and the position of the least significant end of close downward-sloping base plate face 114 is provided with the discharge outlet 129 for discharging the condensed water that is stored in storage area 111.

Discharge outlet 129 is provided with valve unit 130, for by opening and the sealing of controlling discharge outlet 129, condensed water is optionally stored in storage area 111.

The valve unit 130 of the present embodiment is made up of (NormalOpen) the open in usual valve that maintains under normal conditions open state, and comprises the first valve 131 of the switching of controlling discharge outlet 129.

The first valve 131 is provided with: be stored in the first valve inflow entrance 132 that the outlet 129 of the condensed water in storage area 111 is communicated with being used for discharging; The condensed water flowing into by the first valve inflow entrance 132 is discharged to the first outdoor valve flow export 133.

Accordingly, the condensed water that flow into storage area 111 from draining tray 50 is directed to discharge outlet 129 along downward-sloping base plate face 114, and the first valve inflow entrance 132 of the first valve 131 by maintaining under normal conditions open state flows into, then be discharged to outdoor by the drainpipe 214 (with reference to Fig. 2) being connected with the first valve flow export 133 of the first valve 131.

And, valve unit 130 also comprises the second valve 135 for opening and closing the brine electrolysis outlet 117 (with reference to Fig. 4) that is arranged on housing 110 1 sides, and this brine electrolysis outlet 117 is in order to sterilize and to clean indoor heat converter 40 and discharge and contain electrolytical condensed water.

And brine electrolysis outlet 117 is connected in the second valve inflow entrance 136 of the second valve 135 by the first tube connector 215.The second valve 135 is to be equally also made up of the valve open in usual that maintains under normal conditions open state.

In addition, top one side of housing 110 is installed for supplying with electrolytical electrolyte feed unit 140 to the condensed water being stored in storage area 111.The object that electrolyte feed unit 140 is installed is, supplies with the electrolyte such as sodium chloride, sodium carbonate and electrolysis condensed water to condensed water.

Accordingly, in the time of sterilization and/or cleaning indoor heat converter 40, valve unit 130 sealing is formed on discharge outlet 129 on housing 110 and brine electrolysis outlet 117 and condensed water is stored in storage area 111, and for electrolysis condensed water, electrolyte feed unit 140 is supplied with electrolyte to the condensed water being stored in storage area 111.

A side above of housing 110 is provided with pump unit 150, is stored in condensed water in storage area 111 with sterilization and cleans indoor heat converter 40 for the upper end pump purt to indoor heat converter 40.And housing 110 front surfaces of the position of close pump unit 150 are provided with sterilized water generation unit 160, become sterilized water for the condensed water that makes by electrolysis to discharge according to pump unit 150.

The pump inflow entrance 151 of pump unit 150 is connected to second valve door row outlet 137 by the second tube connector 216, and the pump discharge 153 of pump unit 150 is connected to the brine electrolysis inflow entrance 161 of sterilized water generation unit 160 by the 3rd tube connector 217.

Sterilized water generation unit 160 is for generating the rinse water of sterilization indoor heat converter 40, and therefore sterilized water generation unit 160 can use ion generation unit, Ozone Water generation unit and free radical generation unit etc.

Can be formed by ion generation unit according to the sterilized water generation unit 160 of first embodiment of the invention, this ion generation unit comprises the pair of electrodes plate of the portion of setting within it and is arranged on the ion separation membrane between battery lead plate, thereby while applying the voltage of opposed polarity to battery lead plate, electrolysis condensed water and generate alkali ion water and acid electrolyzed functional water.

In the time that this alkali ion water is supplied to indoor heat converter 40, can suppress to be difficult to the growth of the fungi surviving under alkaline environment.And, in the time that this acid electrolyzed functional water is supplied to indoor heat converter 40, can suppress to be difficult to the breeding of the bacterium surviving under sour environment.

Sterilized water generation unit 160 is provided with the acid water outlet 163 of discharging acid electrolyzed functional water and the alkaline water outlet 165 of discharging alkali ion water.And acid water outlet 163 and alkaline water outlet 165 are connected to by the 4th tube connector 218 and the 5th tube connector 219 injection unit 60 that is arranged on indoor heat converter 40 tops respectively.

In addition, although the sterilized water generation unit 160 in this enforcement is made up of the ionized water generation unit for generating acid water and alkaline water, but be not limited to this, can use the electrode materials such as white gold, silver, lead oxide and platinum tantalum, can carry out the sterilized waters such as the Ozone Water, free radical water, silver ionized water of sterilization to indoor heat converter 40 to generate.

And, being arranged on the position of housing 110 sterilized water generation unit 160, pump unit 150 and valve unit 130 above, can arrange successively to downside from the upside above of housing 110.

That is, the brine electrolysis inflow entrance 161 of sterilized water generation unit 160 is arranged on the higher position of pump discharge 153 of comparing pump unit 150, and the pump inflow entrance 151 of pump unit 150 is arranged on the higher position of second valve door row outlet 137 of comparing valve unit 130.

Accordingly, sterilized water carries out sterilization to indoor heat converter 40 upsides to indoor heat converter 40 by pump unit 150 pump purts, and after sterilization finishes, the sterilized water that remains in the 4th tube connector 218 and the 5th tube connector 219 is back to valve unit 130 certainly by sterilized water generation unit 160 and pump unit 150, thereby can prevent in advance the pollution causing because of residual sterilized water.

In addition, the bottom of housing 110 can also be provided with sub-panel 170.In the time being provided for the first tube connector 215, the second tube connector 216, the 3rd tube connector 217 of respectively connection valve gate cell 130, pump unit 150 and sterilized water generation unit 160, if due to assembling error or damagedly cause that first, second and third tube connector 215,216,217 leaks, and can collect by this sub-panel 170 condensed water leaking outside.

Sub-panel 170 forms accommodation space 171, for hold first, second and third tube connector 215,216,217 that is arranged on housing 110 valve unit 130, pump unit 150, sterilized water generation unit 160 above and connects these unit in housing 110 bottoms.

And, although not shown in the present embodiment, in the accommodation space 171 of sub-panel 170, can also be provided for detecting the detecting sensor (not shown) that condensed water leaks outside.

As mentioned above, at least one the processing unit being made up of electrolyte electrolysis cells 140 and/or sterilized water generation unit 160 in the mobile control module being made up of pump unit 150 and/or valve unit 130, the physical property that changes cleaning fluid for the treatment of being stored in the cleaning fluid in storage area 111 and the chemical property that flow for controlling the cleaning fluid that is stored in storage area 111 is installed on the housing 110 of the present embodiment, is formed accordingly an assembly.

In addition, housing 110 1 sides arrange filter unit 180, be stored in the foreign matter that the condensed water of storage area 111 comprises, and this filter unit 180 can load and unload from housing 110 for filtering.

As shown in Figure 5, according to the present embodiment, filter unit 180 surrounds brine electrolysis outlet 117 and is releasably arranged on housing 110.Accordingly, in the time cleaning indoor heat converter 40, filter unit 180 can filter the foreign matter comprising to the condensed water of brine electrolysis outlet 117 sides discharges.

For this reason, a sidewall of the housing 110 of facing mutually with brine electrolysis outlet 117 is provided with filter insertion section 118, for inserting filter unit 180.

Filter unit 180 comprises the roughly screen pack 181 of cylindrical shape, and one end of screen pack 181 arranges and forms threaded flange portion 182, and flange portion 182 is provided with outstanding laterally handle portion 184.

The other end of screen pack 181 is provided with the seal members 185 such as such as elastic tape, and sealing parts 185 surround the inner surface that is close to the housing 110 that forms brine electrolysis outlet 117 with the part of brine electrolysis outlet 117 adjacency.

And, on the outer peripheral face of the flange portion 182 of filter unit 180, also can be provided with seal member 183, for preventing from installing the condensed water leakage-proof of filter unit 180 rear generations.

Accordingly, if insert the rear rotating handles of filter unit 180 portion 184 to filter insertion section 118, the inside spin that is formed on filter insertion section 118 inner peripheral surfaces is combined with the external spiral of flange portion 182, the seal member 185 that is now arranged on screen pack 181 other ends is close to the inner surface of the housing 110 that forms brine electrolysis outlet 117 and is surrounded brine electrolysis outlet 117, therefore can filter the foreign matter that the condensed water of discharging from brine electrolysis outlet 117 comprises.

Therefore, the installation of filter unit 180 and dismounting become simply, thereby easily screen pack 181 are cleared up.

In addition as shown in Figure 3, the upside of housing 110 is provided with the cap 190 for sealing the part of being opened on 111 tops, storage area, and a side of cap 190 is provided with by the condensation flow entrance 191 of opening, for making the condensed water that is collected in draining tray 50 to storage area 111 side inflows.

Condensation flow entrance 191 is arranged on the position corresponding to the osculum 51 forming in draining tray 50, so that the condensed water flowing down from osculum 51 is directly collected in storage area 111.

With reference to Fig. 3 and Fig. 5, the cleaning fluid storage bin of the present embodiment also has the anti-stop of the noise of dripping, for the noise that drips that prevents from occurring in the time that osculum 51 flow into the storage area 111 of housing 110 when condensed water.

Comprise according to the anti-stop of the noise that drips of the present embodiment: from multiple guiding ribs 125 that inwall is outstanding and lower-upper length is long of storage area 111; The guided plate 126 extending from a side of the condensation flow entrance 191 of cap 190, for guiding to guiding rib 125 sides the condensed water flowing down from osculum 51.

Guiding rib 125 is from the downward side direction of inwall upside of housing 110, extend to the position of the base plate face 114 adjacent to storage area 111, and form multiplely with preset space length, and spacing between the plurality of guiding rib 125 is formed as than the less spacing of the drop diameter that forms condensed water according to surface tension (about 3mm).

With reference to Fig. 6, guided plate 126 is for guiding to guiding rib 125 sides the condensed water dripping down from osculum 51, and this guided plate 126 comprises the first plate 127 of extending from a side direction below of condensation flow entrance 191, has a down dip and the second plate 128 of extending from the end of the first plate 127 to guiding rib 125 side direction for this reason.

Spacing between guiding rib 125 and the second plate 128 ends is same is formed as the spacing less than drop diameter.

Although the guided plate 126 of the present embodiment, formed by first and second plate 127,128, reduce the noise that drips of condensed water at utmost reducing the spacing between osculum 51 ends 53 and the second plate 128, but guided plate 126 also can be formed from side direction guiding rib 125 side direction downward-extensions of condensation flow entrance 191 by the first plate 127, to guide condensed waters to guiding rib 125 sides.

As shown in Figure 6, by this structure, the condensed water that is collected in draining tray 50 drips to downside by osculum 51, and the condensed water of drippage is directed to guiding rib 125 sides along the second plate 128, and flow to the base plate face 114 of storage area 111 along the wall in the space between multiple guiding ribs 125, thereby can prevent from flowing into from draining tray 50 noise that drips of the condensed water of storage area 111.

In addition, although not shown in the present embodiment, but in the storage area 111 of housing 110, can also be provided for detecting the level sensor (not shown) of the amount that is stored in the condensed water in storage area 111, in order to can inform user by modes such as warning lights in the time that the amount of condensed water reaches certain level.

And as shown in Figure 3, top one side that is formed with the shell 110 of storage area 111 is provided with in the time that condensed water reaches certain water level for discharging the spillway hole 119 of condensed water, for preventing that the condensed water that is stored in storage area 111 due to the mistake startup of level sensor (not shown) or fault from overflowing the phenomenon of coming.

As shown in Figure 4, spillway hole 119 is communicated with the first valve flow export 133 of valve unit 130 by spilling water pipe arrangement 138.That is, the first valve flow export 133 is provided with the connected entrance 134 being communicated with it, and connected entrance 134 is connected by spilling water pipe arrangement 138 with spillway hole 119.

Accordingly, when being stored in condensed water in storage area 111 and exceeding certain water level, condensed water flow into the first valve flow export 133 by spillway hole 119, be then discharged to by drainpipe 214 outdoor, thereby prevent from overflowing storage area 111 and causing due to condensed water the breakage of miscellaneous part.

In addition, as shown in Figure 3, although the spillway hole 119 in the present embodiment makes the condensed water that is stored in storage area 111 discharge along horizontal direction structure in the vertical frame 115 along continuous straight runs settings of housing 110, but be not limited to this, spillway hole also can be formed as the structure that condensed water is discharged along vertical direction.

That is, as shown in Figure 7, storage area 111 is provided with from the medial surface of vertical frame 115 to the storage area 111 horizontally extending flood levels 120 in inner side, forms the spillway hole 119 perpendicular to flood level 120 on this flood level 120.

Flood level 120 becomes the datum level of the water level that the condensed water that is stored in storage area 111 overflows.Thus, in the time being stored in condensed water in storage area 111 and exceeding flood level 120, will discharge rapidly by spillway hole 119.

In addition, although do not illustrate in the present embodiment, on flood level 120, can form the stream that guides condensed water to spillway hole 119, or flood level 120 can be downward-sloping to spillway hole 119.

At this, if spillway hole 119 forms with horizontal drainage structure, due to condensed water surface tension and flow path resistance, the water level of the condensed water being stored exceedes when height of arranging of spillway hole 119, and condensed water could be discharged by spillway hole 119.But, in the time that spillway hole 119 forms with vertical drainage structure, exceed and set the condensed water that overflows water level, can directly discharge by spillway hole 119 according to deadweight, therefore this structure can further improve the reliability of cleaning fluid storage bin.

Fig. 8 to Figure 10 is the schematic diagram of the water overflowing structure of the cleaning fluid storage bin of second embodiment of the invention.Below, for the component parts with identical function and structure, also description is omitted to use identical reference numeral.

With reference to Fig. 8 and Fig. 9, the storage area 111 of the inside of housing 110 comprises the first storage area 112 from base plate face 114 to top and the second storage area 113 that are separated according to the partition frame 121 of extending from.The first storage area 112 is for store condensed water in the time starting sterilization mode, and the second storage area 113 for discharging condensed water in the time that the first storage area 112 stores the condensed water that exceedes certain water level.

Partition frame 121 has predetermined altitude H from base plate face 114 to partition frame 121 tops, overflows so that be stored in when the condensed water of storage area 111 exceedes certain water level., the height H of this partition frame 121 becomes the altitude datum that condensed water overflows.

And the horizontal section of partition frame 121 is the shape of four frames, to increase that the condensed water being stored in the first storage area 112 overflows across partition frame 121 and the flow that flow into the second storage area 113 sides.

As shown in figure 10, in the present embodiment, partition frame 121 comprises the first framework 122 extending to the inside from housing 110 1 sidewalls and the second framework 123 extending to the inside from the front side wall of housing 110.

Owing to flowing into the condensed water of the second storage area 113 sides from the first storage area 112, by flowing into the second storage area 113 sides (direction of arrow) above the first framework 122 and the second framework 123, the amount of therefore overflowing can increase, thereby further discharges rapidly condensed water.

Although in the present embodiment, by first and second framework 122,123 extending from housing 110 inwalls is set, partition frame 121 is formed as to the shape of four frames according to housing 110 1 side inwalls and first and second framework 122,123.But as shown in figure 11, partition frame 121 also can independently be formed as respectively according to the inwall separation from housing 110 shape of four frames on four sides.Now, the amount (direction of arrow) that flow into the condensed water of the second storage area 113 sides from the first storage area 112 can further increase.

And, although form the shape that the horizontal section of the partition frame 121 of the second storage area 113 is four frames, be not limited to this, also can be formed as the shapes such as ellipse, rectangle, polygon.

In addition, with reference to Fig. 8, the condensation flow entrance 191 of cap 190 can also be provided with guidance unit 200, for the condensed water flowing down from osculum 51 optionally being guided to the first storage area 112 or the second storage area 113.

Guidance unit 200 comprise be arranged on the inner side of condensation flow entrance 191 and rotatable guide member 210, for rotating the drive unit 230 of guide member 210.

Guide member 210 is roughly foliaceous, and comprises and make the mobile stream portion 211 of condensed water of drippage and the rotating shaft 213 with driving shaft 231 combinations of drive unit 230.

Drive unit 230 is by making the motor of positive and negative running or the stepper motor of adjustable rotating speed forms, but is not limited to this, as long as can positive and negative rotation guide member 210, any drive unit can use.

Accordingly, as shown in Figure 9, when being collected in condensed water in draining tray 50 and flowing into condensation flow entrance 191 by osculum 51, guide member 210 is by rotating the inflow direction that regulates condensed water, so that condensed water flows in order to clean indoor heat converter 40 for storing the first storage area 112 sides of condensed water or flowing into for discharging the second storage area 113 sides of condensed water.

; when indoor heat converter 40 is carried out to sterilization; valve unit 130 seals discharge outlet 129, and guide member 210 guides to the first storage area 112 sides by rotation (dotted line) by the condensed water of inflow, stores condensed water with this in the first storage area 112.And while not needing to carry out sterilization, guide member 210 by rotation (solid line) condensed water of inflow is guided to the second storage area 113 sides, with this make condensation flow through be formed on the second storage area 113 base plate face spillway hole 119 and flow to drainpipe 214 sides.

Figure 12 and Figure 13 are the schematic diagram of the cleaning fluid storage bin of the automatic flushing device of third embodiment of the invention.Below, for the component parts with identical function and structure, also description is omitted to use identical reference numeral.

With reference to Figure 12 and Figure 13, the cleaning fluid storage bin of the present embodiment, in order further to improve the utilization rate of main body 10 inner spaces of air conditioner, installs filter unit 300, sterilized water generation unit 160 and pump unit 150 in the storage area 111 of housing 110 inside.

For this reason, base plate face 114 1 sides of storage area 111 are provided with the pump unit setting unit 155 for pump unit 150 is set, and inwall one side of vertical frame 115 is provided with the sterilized water generation unit setting unit 167 for sterilized water generation unit 160 is set.

Pump unit setting unit 155 is arranged on a higher side of the base plate face 114 downward-sloping to discharge outlet 129, and sterilized water generation unit setting unit 167 is arranged on the position near pump unit setting unit 155.

In addition, although not shown in the present embodiment, pump unit setting unit 155 can also be provided with shock-resistant member (not shown), the vibrations that cause to housing 110 while being activated for reducing pump unit 150.

And pump unit 150 uses the pump unit of diving, with the use of also can switching in the condensed water that is stored in storage area 111.And sterilized water generation unit 160 can be made up of the electrode material that produces OH free radical water, Ozone Water or silver ionized water.Now, sterilized water generation unit 160 can be made up of free radical generation unit, Ozone Water generation unit or silver ion generation unit, and can omit electrolyte feed unit 140.

In addition, the filter unit 300 of the present embodiment is arranged to the structure slidably passing in and out by storage area 111 open parts.For this reason, the inwall of the vertical frame 115 of facing is mutually respectively equipped with filter unit setting unit 186, and this filter unit setting unit 186 is formed with the sliding tray 187 that inserts filter unit 300 for sliding.

, filter unit 300 comprise for bag filter be contained in condensed water foreign matter screen pack 310 and for surrounding the quadrilateral frame 320 at screen pack 310 edges.

For this reason, as shown in figure 12, when filter unit 300 is installed, the both sides of quadrilateral frame 320 are inserted into sliding tray 187, thereby filter unit 300 can insert and take out.

In addition, filter unit 300 can be arranged to multiple.As shown in figure 13, filter unit 300 comprises: be arranged on the first filter unit 301 near condensation flow entrance 191, wherein condensation flow entrance 191 is arranged on cap 190; Be arranged on the second filter unit 302 near the position of sterilized water generation unit 160 and pump unit 150.

And the second screen pack 313 of the second filter unit 302 has the sieve aperture structure less than the second screen pack 311 of the first filter unit 301.

Accordingly, the larger foreign matter being included in condensed water is filtered via the first screen pack 311, and the small foreign matter entering by the first screen pack 311 is filtered via the second screen pack 313, after this enter into again sterilized water generation unit 160 and pump unit 150, therefore can improve the reliability of sterilized water generation unit 160 and pump unit 150.

In addition, discharge outlet 129 is provided with the valve unit 330 that opens and closes discharge outlet 129 in order to store condensed water to storage area 111.Valve unit 330 is made up of the valve open in usual that maintains open state under normality.

The valve inflow entrance 331 of valve unit 330 is communicated with discharge outlet 129, and valve flow export 333 is connected with the drainpipe 214 for to outdoor discharge condensed water.

And valve flow export 333 is provided with the connected entrance 335 being communicated with spillway hole 119.

The cleaning fluid storage bin of above-described automatic flushing device of the present invention and have the air conditioner of this storage bin, is not limited to the structure shown in above-described embodiment and accompanying drawing.Those skilled in the art should know, and not departing from the scope of technological thought of the present invention, can carry out various distortion.For example, above-mentioned all spillway holes and water overflowing structure are all applicable to above-mentioned all embodiment.

Claims (47)

1. a cleaning fluid storage bin for automatic flushing device, is characterized in that comprising:

Housing, this housing has the storage area that stores the cleaning fluid for cleaning heat exchanger;

Flow control module, for control be stored in described storage area cleaning fluid flow;

Processing unit, for the treatment of the cleaning fluid being stored in described storage area, to change at least one in physical property and the chemical property of described cleaning fluid;

Wherein, described mobile control module and described processing unit are installed in described housing and form an assembly,

And described storage area comprises: store the first storage area for described heat exchanger being carried out to the described cleaning fluid of sterilization or cleaning; The second storage area being separated out from described the first storage area by partition frame, when be stored in described cleaning fluid in described the first storage area reach datum level when above for discharging described cleaning fluid.

2. the cleaning fluid storage bin of automatic flushing device as claimed in claim 1, it is characterized in that described mobile control module comprise to the upper end pump purt of described heat exchanger be stored in the pump unit of the described cleaning fluid in described storage area and in order to store described cleaning fluid in described storage area for opening and closing at least one of valve unit of the discharge outlet that is arranged on described housing.

3. the cleaning fluid storage bin of automatic flushing device as claimed in claim 2, it is characterized in that described processing unit comprises to described storage area provides electrolytical electrolyte feed unit and is made to be stored in described cleaning fluid in described storage area and become at least one in the sterilized water generation unit of sterilized water by electrolysis.

4. the cleaning fluid storage bin of automatic flushing device as claimed in claim 3, characterized by further comprising for filtering to the filter unit of the described rinse water of described sterilized water generation unit and the inflow of described pump unit;

Wherein, described filter unit is arranged on described housing, and forms an assembly with described housing, described mobile control module and described processing unit.

5. the cleaning fluid storage bin of automatic flushing device as claimed in claim 4, is characterized in that in described pump unit, described sterilized water generation unit and described valve unit, at least one is arranged on the outside of described storage area.

6. the cleaning fluid storage bin of automatic flushing device as claimed in claim 4, is characterized in that in described pump unit, described sterilized water generation unit and described filter unit, at least one is arranged on the inside of described storage area.

7. the cleaning fluid storage bin of the automatic flushing device as described in any one in claim 2 to 6, is characterized in that the side direction opposite side of base plate face of described storage area is downward-sloping, and the opposite side of described base plate face is formed with described discharge outlet.

8. the cleaning fluid storage bin of the automatic flushing device as described in any one in claim 2 to 6, is characterized in that the described cleaning fluid that described sterilized water generation unit makes to be stored in described storage area by electrolysis becomes at least one in acid water, alkaline water, silver ionized water, Ozone Water and OH free radical water.

9. the cleaning fluid storage bin of automatic flushing device as claimed in claim 4, is characterized in that described filter unit is releasably arranged on described housing.

10. the cleaning fluid storage bin of automatic flushing device as claimed in claim 5, it is characterized in that described valve unit comprise the first valve of the switching of controlling described discharge outlet, in order to open and close the second valve of the brine electrolysis outlet being arranged on described housing to cleaning fluid described in described valve unit side inflow.

The cleaning fluid storage bin of 11. automatic flushing devices as claimed in claim 5, the valve outlet that it is characterized in that described valve unit is arranged on the lower position of valve inflow entrance of comparing described valve unit, and the pump discharge of described pump unit is arranged on the lower position of brine electrolysis inflow entrance of comparing described sterilized water generation unit.

The cleaning fluid storage bin of 12. automatic flushing devices as claimed in claim 5, the bottom that it is characterized in that described housing is provided with sub-panel, and this sub-panel is provided with the accommodation space of the described cleaning fluid for collecting the tube connector leakage from connecting respectively described valve unit, described pump unit and described sterilized water generation unit.

The cleaning fluid storage bin of 13. automatic flushing devices as claimed in claim 5, it is characterized in that described housing is provided with the brine electrolysis outlet that includes described electrolytical described cleaning fluid for discharging, a sidewall of the described housing of facing mutually with described brine electrolysis outlet is provided with the filter insertion section of releasably inserting described filter unit.

The cleaning fluid storage bin of 14. automatic flushing devices as claimed in claim 13, it is characterized in that described filter unit comprises columnar screen pack, one end of described screen pack arranges and is formed with externally threaded flange portion, and the other end of described screen pack is provided with the seal member that surrounds described brine electrolysis outlet and be close to the inner surface of the described housing of the surrounding of described brine electrolysis outlet.

The cleaning fluid storage bin of 15. automatic flushing devices as claimed in claim 6, is characterized in that described filter unit is arranged to the space of the opening by top, described storage area and the structure that can pass in and out.

The cleaning fluid storage bin of 16. automatic flushing devices as claimed in claim 15, it is characterized in that described filter unit comprises tetragonal screen pack and for surrounding the framework at described screen pack edge, and be formed with respectively the sliding tray for inserting described framework on the inwall of facing mutually of described storage area.

The cleaning fluid storage bin of 17. automatic flushing devices as claimed in claim 16, it is characterized in that described filter unit is arranged to multiplely, and be arranged on that to compare the described screen pack of remaining described filter unit near the sieve aperture of the described screen pack of filter unit described at least one of described pump unit and described sterilized water generation unit side less.

The cleaning fluid storage bin of 18. automatic flushing devices as described in any one in claim 1 to 6, characterized by further comprising the upside that is incorporated into described housing to seal the cap of the open part in top, described storage area, a side of this cap is provided with the condensation flow entrance for flowing into described cleaning fluid.

The cleaning fluid storage bin of 19. automatic flushing devices as claimed in claim 18, characterized by further comprising multiple guiding ribs that inwall one lower-upper length side-prominent and that form from described storage area is long, is arranged on a side of described cap and for flow into the guided plate of the described cleaning fluid of described condensation flow entrance to described guiding rib side guiding.

The cleaning fluid storage bin of 20. automatic flushing devices as claimed in claim 19, is characterized in that described guided plate comprises the first plate of extending from a side direction downside of described condensation flow entrance, has a down dip and the second plate of extending from the end of described the first plate to described guiding rib side direction.

The cleaning fluid storage bin of 21. automatic flushing devices as described in any one in claim 2 to 6, is characterized in that top one side of described housing is provided with the spillway hole of discharging described cleaning fluid when the described cleaning fluid being stored in described storage area reaches certain water level.

The cleaning fluid storage bin of 22. automatic flushing devices as claimed in claim 21, it is characterized in that described spillway hole towards the lower side of described housing to and form so that the described cleaning fluid being stored in described storage area is discharged along vertical direction.

The cleaning fluid storage bin of 23. automatic flushing devices as claimed in claim 21, is characterized in that the valve flow export of described valve unit is provided with the connected entrance being communicated with described spillway hole.

The cleaning fluid storage bin of 24. automatic flushing devices as claimed in claim 1, is characterized in that described partition frame separates and arranges from the inwall of described housing.

The cleaning fluid storage bin of 25. automatic flushing devices as claimed in claim 1, characterized by further comprising guidance unit, for the described cleaning fluid that flows to described storage area being guided to described the first storage area or described the second storage area.

The cleaning fluid storage bin of 26. automatic flushing devices as claimed in claim 25, characterized by further comprising sealing top, described storage area opening part and be provided with the cap of the condensation flow entrance for flowing into described cleaning fluid.

The cleaning fluid storage bin of 27. automatic flushing devices as claimed in claim 26, it is characterized in that described guidance unit comprises: can be rotatably set in the guide member of described condensation flow entrance bottom, this guide member is provided with the mobile stream portion of described cleaning fluid that makes inflow; For rotating the drive unit of described guide member.

28. 1 kinds of air conditioners, comprise main body, be arranged on described body interior indoor heat converter, be collected in the condensed water producing on described indoor heat converter draining tray, there is the cleaning fluid storage bin of the housing that is formed with the storage area for storing the described condensed water flowing down from described draining tray, spray the injection unit of sterilized water to described indoor heat converter, it is characterized in that:

Be respectively equipped with at described housing as an assembly: the pump unit that is stored in the described condensed water in described storage area to described injection unit side pump purt; Make to be stored in described condensed water in described storage area by electrolysis and become the sterilized water generation unit of described sterilized water; Filter the filter unit of the foreign matter in the described condensed water flowing into described sterilized water generation unit and described pump cell side; Valve unit, opens and closes in order to discharge the described condensed water storing in described storage area for controlling the discharge outlet arranging,

Described storage area comprises: store the first storage area for described indoor heat converter being carried out to the described condensed water of sterilization or cleaning; The second storage area being separated out from described the first storage area by partition frame, when the described condensed water being stored in described the first storage area reaches more than datum level for discharging described condensed water.

29. air conditioners as claimed in claim 28, is characterized in that in described pump unit, described sterilized water generation unit and described valve unit, at least one is arranged on the outside of described storage area.

30. air conditioners as claimed in claim 28, is characterized in that in described pump unit, described sterilized water generation unit and described filter unit, at least one is arranged on the inside of described storage area.

31. air conditioners as described in any one in claim 28 to 30, is characterized in that the base plate of described storage area is downward-sloping towards described discharge outlet.

32. air conditioners as described in any one in claim 28 to 30, is characterized in that described filter unit is releasably arranged on described housing.

33. air conditioners as claimed in claim 29, is characterized in that being also provided with to the described condensed water being stored in described storage area and supplying with electrolytical electrolyte feed unit on described housing.

34. air conditioners as claimed in claim 33, it is characterized in that described housing is provided with the brine electrolysis outlet that includes described electrolytical described condensed water for discharging, and described valve unit comprise the switching of controlling described discharge outlet the first valve, open and close the second valve of described brine electrolysis outlet.

35. air conditioners as claimed in claim 34, it is characterized in that described the second valve comprises the second valve inflow entrance being communicated with described brine electrolysis outlet, the second valve door row being communicated with the pump inflow entrance of described pump unit outlet, described pump unit comprises the pump discharge being communicated with the brine electrolysis inflow entrance of described sterilized water generation unit.

36. air conditioners as claimed in claim 35, is characterized in that second valve door row outlet is arranged on to compare the lower position of described valve inflow entrance, described pump discharge is arranged on compares the lower position of described brine electrolysis inflow entrance.

37. air conditioners as claimed in claim 36, the bottom that it is characterized in that described housing is provided with sub-panel, the described condensed water that this sub-panel leaks for the tube connector of collecting from connecting respectively described valve unit, described pump unit and described sterilized water generation unit.

38. air conditioners as claimed in claim 33, it is characterized in that described housing is provided with the brine electrolysis outlet that includes described electrolytical described condensed water for discharging, filter insertion section on the sidewall that is arranged on the described housing of facing mutually with described brine electrolysis outlet, by described filter insertion section, described filter unit is releasably set.

39. air conditioners as claimed in claim 30, is characterized in that the inwall of facing mutually of described storage area is provided with sliding tray, and described filter unit is is slidably loaded and unloaded and is arranged on described sliding tray by the space of the opening on top, described storage area.

40. air conditioners as claimed in claim 39, it is characterized in that described filter unit is arranged to multiplely, and be arranged on that to compare the remaining described screen pack of described filter unit near the sieve aperture of the described screen pack of filter unit described at least one of described pump unit and described sterilized water generation unit side less.

41. air conditioners as described in any one in claim 28 to 30, characterized by further comprising the cap that is incorporated into the downside of described draining tray and seals the part of the opening on top, described storage area, a side of this cap is provided with the condensation flow entrance being communicated with the osculum of described draining tray.

42. air conditioners as claimed in claim 41, inwall one side that it is characterized in that described storage area is provided with the long multiple guiding ribs of lower-upper length outstanding from described inwall and that form, and a side of described condensation flow entrance is provided with the guided plate for guide the described condensed water flowing down from described draining tray to described guiding rib side.

43. air conditioners as described in any one in claim 28 to 30, top one side that it is characterized in that described housing be provided with in the time being stored in described condensed water in described storage area and reaching datum level described in condensed water can Natural excrement spillway hole.

44. air conditioners as claimed in claim 43, it is characterized in that described spillway hole towards the lower side of described housing to and form so that described condensed water is discharged along vertical direction.

45. air conditioners as claimed in claim 43, is characterized in that described valve unit comprises the valve flow export being connected with the drainpipe of discharging described condensed water to space outerpace, and described valve flow export is provided with the connected entrance being communicated with described spillway hole.

46. air conditioners as claimed in claim 28, characterized by further comprising the cap that is incorporated into described draining tray downside and seals the part of the opening on top, described storage area, a side of described cap is provided with the condensation flow entrance being communicated with the osculum of described draining tray.

47. air conditioners as claimed in claim 46, characterized by further comprising for guiding to the guidance unit of described the first storage area or described the second storage area by the low described condensed water of described osculum, described guidance unit comprise can be rotatably set in described condensation flow entrance bottom and be provided with make the guide member of the mobile stream portion of described condensed water, for rotating the drive unit of described guide member.