CN104136861A - Air conditioner - Google Patents

Abstract

This air conditioner is configured in such a manner that the temperature around the evaporator is reduced utilizing the cold energy of drain water. A cooling section is provided around the heat exchanger of the indoor unit, the heat exchanger serving as the evaporator during cooling operation. The cooling section has a structure in which a heat exchange section is formed on a conveyance body. The conveyance body is disposed within a drain pan and is immersed in drain water. The heat exchange section is disposed on the windward side of the heat exchanger so as to face the heat exchanger. The cold energy of drain water accumulating in the drain pan is transferred to the heat exchange section through the conveyance body. Air sucked in from the indoor space passes around the heat exchange section and is cooled by the cold energy. The air, the temperature of which has been reduced, passes through the heat exchanger, and the temperature of the air is further reduced.

Description

Air conditioner

Technical field

The present invention relates to have the air conditioner of drain pan, the discharge water that described drain pan is produced by evaporimeter while accepting operation of air conditioner.

Background technology

In the indoor set of separate type air conditioner, shell is built-in with fan and heat exchanger.When cooling operation, the heat exchanger of indoor set moves as evaporimeter.From the air of indoor suction, at evaporimeter, be cooled, to indoor blowing cold air.The air sucking is during by evaporimeter, contained water vapor condensation in air and produce discharge water.Discharging water droplet falls and stores in the drain pan of below configuration of evaporimeter.Storage discharge water by drainpipe to outdoor discharge.

Conventionally, discharging water directly discharges.In order to utilize described discharge water, in the air conditioner of recording at patent documentation 1, be supplied to indoor outdoor air and carry out heat exchange and be cooled with the discharge water to outdoor discharge.In the air conditioner of patent documentation 2, discharge water and be supplied to the wettable layer that covers the condenser outer surface in off-premises station, condenser is cooling.

Patent documentation 1: No. 2010-78246, Japanese Patent Publication communique JP

Patent documentation 2: No. 2009-115402, Japanese Patent Publication communique JP

In above-mentioned air conditioner, by discharging water, to discharge midway, outdoor air and condenser are cooled.Now, on the position in the generation place away from discharge water, utilized the cold of discharging water.In the situation that the displacement of discharge water is longer, discharges water and absorb heat sometimes and cause temperature to rise.Therefore, can not effectively utilize the cold of discharging water.

Summary of the invention

In view of the above problems, object is to provide a kind of following air conditioner in the present invention, can effectively utilize the cold of discharging water in the surrounding that produces discharge evaporation of water device.

Air conditioner of the present invention comprises: evaporimeter, carries out heat exchange with the air sucking; And drain pan, receive the discharge water that evaporimeter produces, in the surrounding of evaporimeter, be provided with cooling end, described cooling end utilization is discharged water and is reduced evaporimeter temperature around.

The discharge water that utilizes cooling operation and produced by evaporimeter is stored in drain pan.Cooling end is delivered directly to evaporimeter around by the discharge water of drain pan storage, or the cold of discharging water is transported to evaporimeter around.The cold of the discharge water that utilization transports, declines evaporimeter temperature around.The air the sucking portion that is cooled is cooling, and also cooling by evaporimeter, can efficiently generate cold wind.

Cooling end is configured on the position contacting with air by evaporimeter.Thus, evaporimeter ambient air contacts with discharge water directly or indirectly by cooling end.In addition, drain pan is configured in the below of evaporimeter.Therefore, cooling end is directly transported on the position contacting with air by evaporimeter discharging water.Now, the air of suction directly contacts with discharge water.Or cooling end is transported to above-mentioned position by the cold of discharging water.Now, the air of suction contacts indirectly with discharge water.

A part for cooling end is immersed in the discharge water in drain pan.Discharging water arrives via cooling end on the position contacting with air by evaporimeter.Or the cold of discharging water is delivered to above-mentioned position by cooling end.

Cooling end, for carrying the structure that is formed with heat exchange department on body, carries body to be configured in drain pan, and heat exchange department is relative with evaporimeter to be configured.That is, heat exchange department is configured on the position contacting with air by evaporimeter.Owing to carrying body to be immersed in, discharge in water, so discharge water directly by carrying body to be transported to heat exchange department.Or, discharge the cold of water by carrying body to be transported to heat exchange department.Heat exchange department, by contacting with evaporimeter ambient air, makes warm air and the cold of discharging water carry out heat exchange, and evaporimeter ambient air is cooling.

Cooling end has and the opposed heat exchange department of evaporimeter, and is provided with the delivery section to heat exchange department guiding the discharge water from drain pan.Heat exchange department is configured on the position contacting with air by evaporimeter.Delivery section directly guides the discharge water of storing in drain pan to heat exchange department.Discharge water and be transported to heat exchange department, the air of suction directly contacts with discharge water.

Delivery section extract to be discharged water from drain pan, and will discharge water and guide to heat exchange department.Delivery section is utilized capillarity or siphonage in order to draw water.Or can also use pump.

The heat exchange department of cooling end is located at the weather side of evaporimeter.Can be cooling by the air before evaporimeter, the air that temperature is declined carries out heat exchange by evaporimeter.Therefore, evaporimeter can make to be declined by the temperature of cooling in advance air, by blowing out the more air of low temperature, can the short time reach design temperature.

When air conditioner is separate type air conditioner, evaporimeter is the heat exchanger that is built in indoor set.And a plurality of evaporimeters are arranged to from front side to the fan of rear side encirclement for air amount, the evaporimeter of cooling end and front side and the evaporimeter of rear side are oppositely arranged.Thus, can effectively utilize the discharge water of the evaporimeter generation of front and back.

According to the present invention, can utilize the cold of the discharge water of evaporimeter generation, evaporimeter temperature is around declined, thereby make to become the more air of low temperature by the air of evaporimeter.Thus, can make at short notice room temperature become design temperature, can carry out efficiently cooling operation.

Accompanying drawing explanation

Fig. 1 is the stereogram of the indoor set of air conditioner of the present invention.

Fig. 2 is the cutaway view of indoor set.

Fig. 3 is the stereogram of pulling down the indoor set after front panel.

Fig. 4 means the figure of the cooling end of the weather side that is configured in heat exchanger.

Fig. 5 means the figure of the cooling end while pulling down heat exchanger and fan.

Fig. 6 is the stereogram of the cooling end of front face side.

Fig. 7 is the stereogram of the cooling end of rear side.

Fig. 8 means the figure of the cooling end that utilizes capillarity.

Fig. 9 means the figure of the cooling end of water-drawing type.

Figure 10 means the figure of cooling end of the water-drawing type of the heat exchange department with tubulose.

Figure 11 means the figure of cooling end of the water-drawing type of the heat exchange department with tubulose.

Description of reference numerals

1 heat exchanger

Heat exchanger before 1a

1b back side heat exchanger

2 fans

3 shells

4 suction inlets

5 blow-off outlets

10 backplates

11 front panels

Drain pan before 13

14 back drain dishes

19 front space

30 cooling ends

31 cooling ends

32 carry body

33 heat exchange departments

35 back spaces

40 heat exchange departments

42 heat exchange departments

43 delivery section

44 extraction tubes

45 pallets

46 feed water inlets

47 heat-exchange tubes

48 heat-exchange tubes

The specific embodiment

Fig. 1,2 has represented the indoor set of air conditioner of the separate type of present embodiment.Indoor set has heat exchanger 1, fan 2 and shell 3, and described heat exchanger 1, fan 2 are built in shell 3.On the upper surface of the shell 3 forming in left and right directions lengthening, be formed with suction inlet 4.From the flexure plane of front surface bottom to the bottom surface of shell 3, be formed with blow-off outlet 5.In addition, during from top view shell 3, establishing width is that left and right directions, depth direction are that fore-and-aft direction, short transverse are above-below direction.

Not shown off-premises station is built-in with compressor, heat exchanger, cross valve, throttling arrangement and fan.Indoor set is connected by refrigerant pipe with off-premises station, forms kind of refrigeration cycle.The operation of air conditioner such as air conditioner freezes, heats, dehumidifying.

The inside of shell 3 is formed with the air-supply passage 6 from suction inlet 4 to blow-off outlet 5, and heat exchanger 1 and fan 2 are disposed at air-supply passage 6.Filter plane is to suction inlet 4 and can install and remove and be arranged in shell 3.Pair of right and left filter deployment is above heat exchanger 1.The top, the place ahead of heat exchanger 1 is provided with filter cleaning unit 7.Filter cleaning unit 7 moves filter, and filter is cleaned.

Shell 3 consists of backplate 10 and front panel 11.Heat exchanger 1 and fan 2 are installed on backplate 10.Front panel 11 can be installed and removed and be installed on backplate 10.The upper surface open of front panel 11, described opening is suction inlet 4.The front surface of front panel 11 is provided with the front shroud 12 of energy switch.When front shroud 12 is opened, filter cleaning unit 7 exposes, and can install and remove filter.

Heat exchanger 1 surrounds front side, upside and the rear side of fan 2.Heat exchanger 1 is divided into heat exchanger 1a and back side heat exchanger 1b above.Heat exchanger 1a is configured in front panel 11 sides above, forms higher level and this two-stage of subordinate.Back side heat exchanger 1b is configured in backplate 10 sides.

At this, when cooling operation, the heat exchanger 1 of indoor set is as evaporimeter performance function, and the heat exchanger of off-premises station is brought into play function as condenser.Utilize cooling operation, evaporimeter is that the heat exchanger 1 of indoor set produces discharge water.For heat exchanger 1, in front and back, be provided with respectively and receive the drain pan 13,14 of discharging water.The below of heat exchanger 1a is provided with drain pan 13 above above, and the below of back side heat exchanger 1b is provided with back drain dish 14.Each drain pan 13,14 lengthens and forms at left and right directions corresponding to heat exchanger 1.

Drain pan 13 is formed on the drain pan unit 15 that is formed with blow-off outlet 5 above.Drain pan unit 15 can be installed and removed and be installed on backplate 10.Drain pan unit 15 is provided with the horizontal shutter board 16 of energy switch, and is provided with the vertical shutter board 17 that can swing, and described horizontal shutter board 16 is for switch blow-off outlet 5.

The antetheca 18 of drain pan 13 is formed slopely obliquely upward above, and the upper end of antetheca 18 is a little less than the higher level's of heat exchanger 1a position above.The antetheca 18 of drain pan 13 and be formed with front space 19 above between heat exchanger 1a above, so that the air sucking from the suction inlet 4 of top is by the subordinate of heat exchanger 1a above side flow backward.The rear wall 20 of drain pan 13 is between the subordinate and fan 2 of heat exchanger 1a above above.The diapire 21 of drain pan 13 is relative with the subordinate of heat exchanger 1a above above, and described diapire 21 connects antetheca 18 and rear walls 20.

Back drain dish 14 is integrally formed with backplate 10.The antetheca 22 of back drain dish 14 is between fan 2 and back side heat exchanger 1b, as a part that forms the wall member of air-supply passage 6.The rear wall 23 of back drain dish 14 has utilized the rear wall of backplate 10, and upright towards suction inlet 4.The diapire 24 of back drain dish 14 is relative with back side heat exchanger 1b, and described diapire 24 connects antetheca 22 and rear wall 23.

Back drain dish 14 is in higher than the position of drain pan 13 above.And, be provided with and connect back drain dish 14 and the conduit pipe of drain pan 13 above.Conduit pipe is formed on a side of the left and right directions of drain pan 13,14, by the discharge water of back drain dish 14 to 13 guiding of drain pan above.Above, on drain pan 13, be formed with discharge outlet, in discharge outlet, be connected with drainpipe, thereby discharge to the outside of indoor set discharging water.

When cooling operation, at the heat exchanger 1 of indoor set, be on evaporimeter, the airborne water vapor condensation of suction and the water droplet that generates falls, discharges water and is stored in drain pan 13,14.As shown in Figure 3,4, indoor set is provided with cooling end 30,31, and described cooling end 30,31 utilizes the cold of described discharge water, reduces as the temperature around the heat exchanger 1 of evaporimeter performance function.Heat exchanger 1 for front and back disposes respectively cooling end 30,31.

The cooling end 30 of front face side is arranged on the weather side of heat exchanger 1a above, with relative configuration of subordinate of heat exchanger 1a above.As shown in Figure 5,6, cooling end 30 is for carrying the structure that is formed with heat exchange department 33 on body 32.Carry body 32 to there is the function that the cold of discharging water is transported to the place that becomes cooling object.Heat exchange department 33 has at heat exchanger 1 ambient air and discharges the function of carrying out heat exchange between the cold of water.

Carry body 32 and heat exchange department 33 to be formed by the metallic plates such as the high copper of pyroconductivity and silver or the high resin plate of pyroconductivity.Carry body 32 to coordinate shape from the antetheca 18 of drain pan 13 above to diapire 21 and warpage.Conveying body 32 and above antetheca 18 close contacts of drain pan 13, the bottom 34 that the bottom warpage of conveying body 32 is formed and above diapire 21 close contacts of drain pan 13.That is, as the bottom 34 of the part of cooling end 30, be immersed in the discharge water in drain pan 13 above.

Heat exchange department 33 is fin, utilizes soldering, welding etc. to be arranged on and carries on body 32.Heat exchange department 33 is at the antetheca 18 of drain pan 13 above and above in the front space 19 between the subordinate of heat exchanger 1a.A plurality of heat exchange departments 33 from the front part of suction inlet 4 downward, and configure through front space 19 and by the air stream of heat exchanger 1a above abreast, and each heat exchange department 33 is uniformly-spaced arranged along left and right directions.

The cooling end 31 of rear side is located at the weather side of back side heat exchanger 1b.Cooling end 31 is identical with cooling end 30 structures of front face side, by carrying body 32 and heat exchange department 33 to form.As shown in Fig. 5,7, the conveying body of the cooling end 31 of rear side 32 coordinates shape from the rear wall 23 of back drain dish 14 to diapire 24 and warpage.Carry rear wall 23 close contacts of body 32 and back drain dish 14, carry the bottom 34 of body 32 and diapire 24 close contacts of back drain dish 14.Be arranged on the heat exchange department 33 of carrying the fin on body 32, in the back space 35 forming between the rear wall 23 of back drain dish 14 and back side heat exchanger 1b.Same with the heat exchange department 33 of front side, a plurality of heat exchange departments of rear side 33 and rear section from suction inlet 4 configure abreast through back space 35 air stream by back side heat exchanger 1b.

As mentioned above, heat exchange department 33 is arranged on the weather side as the residing heat exchanger 1 of heat exchanger 1 surrounding air of cooling object.And, arrange and carry body 32 for carrying the cold of discharging water towards heat exchange department 33.

In indoor set, when cooling operation, from the air of indoor suction by the heat exchanger 1 of front and back and carry out heat exchange, cooled air blows out to indoor from blow-off outlet.Airborne water vapor condensation and producing while discharging water, discharges water from heat exchanger 1 drippage of front and back, and in the drain pan 13,14 before and after being stored in.Conveying body 32 is arranged to diapire 21,24 close contacts with drain pan 13,14.That is, a part for cooling end 30,31 is immersed in the discharge water in drain pan 13,14.Discharge the cold of water by carrying body 32 to transmit to heat exchange department 33.

In addition, before, in drain pan 13, the discharge water of storage flows to discharge outlet.Due to the state current downflow of discharging water and contact in the bottom 34 with carrying body 32, so cold is delivered to conveying body 32 during this period.At this, the height and position of discharge outlet can be set in higher than the position of carrying the bottom 34 of body 32.Discharge till water can accumulate and carries the bottom 34 of body 32 to be soaked completely in drain pan 13, can effectively utilize the cold of discharge water.

From the warm air of indoor suction, through front space 19 or back space 35, also pass through heat exchanger 1.Air by front space 19, back space 35 flows along the cooled heat exchange department 33 of the cold that utilizes discharge water.In the time of between the air process heat exchange department 33 sucking, by contacting with heat exchange department 33 or mixing with utilizing the cooled surrounding air of heat exchange department 33, thereby temperature declines.Now, the air of suction contacts indirectly with discharging water, before by heat exchanger 1, carries out heat exchange with the cold of discharging water, and the temperature of the air by heat exchanger 1 declines.

Like this, due to by advance cooling from indoor air by heat exchanger 1, so become the more air of low temperature by the air after heat exchanger 1.Therefore, the situation than there is no cooling end 30,31, can blow out the cold wind that temperature is lower, can make at short notice room temperature become design temperature.Thus, can shorten the duration of runs and reduce power consumption.

As shown in Figure 8, as other modes of cooling end 30,31, also can there is the heat exchange department 40 relative with the heat exchanger 1 of front and back, and possess and will discharge the delivery section of water to heat exchange department 40 guiding.Heat exchange department 40 is formed tabular by permeable materials of tool such as playing wool fibre, nonwoven, porous material, a plurality of heat exchange departments 40 are arranged on base plate 41 integratedly, on the diapire 21,24 of the drain pan 13,14 before and after base plate 41 is arranged on.Each heat exchange department 40 is arranged in parallel on the flow direction of air.In addition, heat exchange department 40 forms that tabulars, ripple are tabular, corrugated.A part for described heat exchange department 40 is immersed in discharges in water, and heat exchange department 40 utilizes capillarity, from drain pan 13,14, extracts and discharges water and carry towards top.That is, heat exchange department 40 has the function that extracts discharge water from drain pan 13,14, and heat exchange department 40 is also also used as delivery section.

In addition, cooling end 30,31 utilizes metallic plate or the resin plate that pyroconductivity is high to form heat exchange department 40, and heat exchange department 40 is uprightly arranged in drain pan 13,14.Also can on the surface of heat exchange department 40, by bonding grade, the permeable material of tool be set integratedly, using as delivery section.Now, discharge the cold of water and carried upward by heat exchange department 40, and utilize capillarity, discharge water and directly carried upward on the surface of delivery section.Thus, the delivery section being arranged on integratedly on heat exchange department 40 is directly carried discharge water.In other words, because delivery section is carried the cold of discharging water, so be to carry one of body.

The bottom of heat exchange department 40 is immersed in the discharge water of storage in drain pan 13,14, discharges water conservancy and rises along heat exchange department 40 by capillarity.Therefore, discharging water is directly carried by heat exchange department 40.The surrounding air of the air that the comprises suction discharge water contained with heat exchange department 40 directly contacts.The air passing through is carried out cooling, and from ambient air, capture heat when discharging water evaporation, thereby heat exchange department 40 temperature around declines.

In addition, as shown in Figure 9, as other mode, also the metal of fin heat exchange department processed 42 can be oppositely arranged with heat exchanger 1a above, and with heat exchange department 42, delivery section 43 be set independently.Delivery section 43 extracts discharges water, and discharge water is directed to the top of heat exchange department 42.Delivery section 43 has thin extraction tube 44 and pallet 45.Extraction tube 44 extends in the pallet 45 between heat exchanger 1a above that is arranged on the superior and the subordinate from drain pan 13, in the interior capillarity of utilizing of extraction tube 44, makes to discharge liter waterborne, thereby discharge water, arrives pallet 45.On pallet 45, be formed with accordingly feed water inlet 46 with each heat exchange department 42.On feed water inlet 46, be connected with heat exchange department 42, by 46 being delivered to the top of heat exchange department 42 and making to discharge water and fall from feed water inlet discharging water, discharge water be transported to heat exchange department 42.Discharge water and drip on the outer surface of heat exchange department 42, the surrounding air of the air that comprises suction directly contacts with discharge water.In addition, can adopt suction pump as the water plug of delivery section 43, discharge water is supplied to pallet 45.In addition, also can utilize and discharge the siphonage that water is full of extraction tube 44, extract discharge water.In addition, for back side heat exchanger 1b, also can arrange and above-mentioned cooling end same, that formed by heat exchange department 42 and delivery section 43.

As shown in figure 10, can replace the heat exchange department 42 of fin, but adopt the metal heat-exchange tubes 47 such as copper, silver as heat exchange department.A plurality of heat-exchange tubes 47 are in above-below direction configured in parallel, and the upper end of heat-exchange tube 47 is connected to the feed water inlet 46 of pallet 45, and the lower end of heat-exchange tube 47 is configured in drain pan 13.Or can as shown in figure 11, a heat-exchange tube 48 be configured to from upside to downside at left and right directions serpentine bend.The discharge water being extracted by above-mentioned delivery section 43 falls in heat-exchange tube 47,48.The surrounding air of the air that comprises suction contacts discharge water indirectly by the outer surface of heat-exchange tube 47,48, thereby temperature declines.In addition, not only can discharge water to the interior circulation of heat-exchange tube 47,48, can also discharge water in the outer surface circulation of heat-exchange tube 47,48.In addition, for back side heat exchanger 1b, also can arrange and above-mentioned cooling end same, that formed by heat-exchange tube 47,48 and delivery section 43.

Above-mentioned extraction tube 44 and heat-exchange tube 47,48 can be arranged integratedly, the discharge water extracting is directly dripped.In the situation that having many heat-exchange tubes 48, the top of extraction tube 44 is a plurality of along separate routes, becomes many heat-exchange tubes 48.The in the situation that of a heat-exchange tube 48, cooling end integral body can form with a pipe.

In addition, the invention is not restricted to above-mentioned embodiment, certainly can to above-mentioned embodiment, carry out various corrections and change within the scope of the invention.The heat exchanger of off-premises station becomes evaporimeter when heating running.Therefore, above-mentioned cooling end can be set for the heat exchanger of off-premises station.In addition, also can cooling end be set for the heat exchanger of one-piece type air conditioner.

The weather side of the heat exchanger before and after the heat exchange department of cooling end not only can be located at, can also be located at downwind side.By the air after cools down, contacted with heat exchange department, airborne water vapor condensation, can be to the indoor air blowing out after dehumidifying.

In addition, cooling end can be only set on heat exchanger above.The discharge water that back side heat exchanger produces, by conduit pipe, flows to drain pan above from back drain dish, and the temperature of surroundings is above declined.

Can also the discharge water of storing in drain pan not discharged, but keep storing.By supplying with and discharge water to cooling end, can make to discharge water circulation.Owing to discharging the air of water and suction, carry out heat exchange, discharge the part evaporation of water, so discharge water, can not overflow from drain pan.

Refrigerant inlet side or the refrigerant outlet side of evaporimeter that can be when cooling operation, the heat exchange department of configuration cooling end.And, can also be at the heat exchange department of refrigerant inlet side and refrigerant outlet side configuration cooling end.By described heat exchange department is configured in to refrigerant inlet side, because the air by cooling in advance carries out heat exchange at evaporimeter place, so can reduce the heat exchange amount at described part place, can reduce the load that the cold-producing medium of low temperature bears.In addition, by described heat exchange department is configured in to refrigerant outlet side, even if the heat exchanger effectiveness of cold-producing medium reduces, also can make up described reduction, the temperature of air is declined.

Claims (10)

1. an air conditioner, is characterized in that comprising:

Evaporimeter, carries out heat exchange with the air sucking; And

Drain pan, receives the discharge water that evaporimeter produces,

Surrounding at evaporimeter is provided with cooling end, and described cooling end utilization is discharged water and reduced evaporimeter temperature around.

2. air conditioner according to claim 1, is characterized in that, cooling end is configured on the position contacting with air by evaporimeter, the air by evaporimeter via cooling end with discharge water and contact directly or indirectly.

3. air conditioner according to claim 1 and 2, is characterized in that, the cold of water is discharged in cooling end transmission.

4. air conditioner according to claim 3, is characterized in that, a part for cooling end is immersed in the discharge water in drain pan.

5. air conditioner according to claim 4, is characterized in that, cooling end, for carrying the structure that is formed with heat exchange department on body, carries body to be configured in drain pan, and heat exchange department is relative with evaporimeter to be configured.

6. air conditioner according to claim 1 and 2, is characterized in that, cooling end has and the opposed heat exchange department of evaporimeter, and is provided with the delivery section to heat exchange department guiding the discharge water from drain pan.

7. air conditioner according to claim 6, is characterized in that, delivery section extract to be discharged water from drain pan, and will discharge water and guide to heat exchange department.

8. according to the air conditioner described in any one in claim 5～7, it is characterized in that, the heat exchange department of cooling end is located at the weather side of evaporimeter.

9. according to the air conditioner described in any one in claim 1～8, it is characterized in that, evaporimeter is the heat exchanger that is built in indoor set.

10. air conditioner according to claim 8 or claim 9, is characterized in that, a plurality of evaporimeters are arranged to from front side to surround the fan for air amount to rear side, and the evaporimeter of cooling end and front side and the evaporimeter of rear side are oppositely arranged.