CN206222468U - Air conditioner room unit and air-conditioner - Google Patents

Abstract

The utility model discloses a kind of air conditioner room unit and air-conditioner, wherein, the air conditioner room unit includes indoor heat exchanger and humidification component, the humidification component is arranged on indoor heat exchanger top and is reclined setting with the indoor heat exchanger, the humidification component is used for the indoor heat exchanger water drenching, the water drenching chamber for water storage is provided with the humidification component, the water inlet for connecting the water drenching chamber and the apopore for connecting the water drenching chamber, the apopore are arranged at the bottom of the humidification component.Technical solutions of the utility model can improve the humidifying effect of humidification component.

Description

Air conditioner room unit and air-conditioner

Technical field

The utility model is related to field of air conditioning, more particularly to a kind of air conditioner room unit and air-conditioner.

Background technology

Humidification component is installed, humidification component is located at the top of indoor heat exchanger on existing many air conditioner room units, and It is at a distance with indoor heat exchanger；Humidification component forms water curtain and humidifies by water spray, when water flow down, between current Clustering phenomena can be produced in the presence of tension force, so as to cause water-flow equation everywhere uneven.The larger position of current, due to water Excessive, water can not access rationally utilization, and easily stop air flow, influence humidifying effect；The less position of current, by Limited in water, humidifying effect is not also obvious.In this way, causing the humidifying effect for humidifying component poor.

Utility model content

Main purpose of the present utility model is to propose a kind of air conditioner room unit, it is intended to improve the humidification effect of humidification component Really.

To achieve the above object, the utility model proposes air conditioner room unit, including indoor heat exchanger and humidification component, The humidification component includes the liquid distribution located at indoor heat exchanger top and the setting that reclined with the indoor heat exchanger, institute Liquid distribution is stated for the indoor heat exchanger water drenching, being provided with the water drenching chamber for water storage in the liquid distribution, institute is connected The water inlet for stating water drenching chamber and the apopore for connecting the water drenching chamber, the apopore are arranged at the bottom of the liquid distribution.

Preferably, the shape of the liquid distribution matches with the shape of the indoor heat exchanger top surface.

Preferably, the quantity of the apopore is multiple, and multiple apopores are uniformly arranged in the liquid distribution Bottom.

Preferably, multiple apopores are in a row along the bearing of trend arrangement of the liquid distribution.

Preferably, the apopore is bar hole, and the bearing of trend of the relatively described liquid distribution of the bar hole is inclined and set Put.

Preferably, the bottom of the liquid distribution sets multiple rows of apopore parallel；Apopore is by extremely described in each row Few two apopores are arranged along the bearing of trend of the liquid distribution and are constituted, and the apopore alignment of adjacent two row is set Or be staggered.

Preferably, the apopore is circular hole.

Preferably, the bottom of the liquid distribution is provided around the annular relief that each apopore is set.

Preferably, the free end of the annular relief is provided with diversion section, and the diversion section is near the water drenching chamber One end is set to the tapered at one end away from the water drenching chamber.

Preferably, the indoor heat exchanger includes the multiple fins being intervally arranged along the length direction of the indoor heat exchanger With wear the heat exchange tube assemblies that are installed on multiple fins, form a passage between the two neighboring fin；Each institute State apopore and be directed at a passage setting.

Preferably, each described passage of the bottom alignment of the liquid distribution sets an apopore.

Preferably, on the bearing of trend of the liquid distribution, the mutually close two ends of two adjacent apopores Line is acute angle or right angle with the angle of the bearing of trend of the liquid distribution.

Preferably, in apopore described in any two, the apopore shorter with runner between the water inlet Size of the size less than the apopore more long with runner between the water inlet.

Preferably, between the size of each apopore, with the apopore and the smallest size of apopore away from From being directly proportional.

Preferably, the apopore sets from the one end near the water drenching chamber to the tapered at one end away from the water drenching chamber Put.

The utility model also proposes a kind of air-conditioner, and the air-conditioner includes air conditioner room unit, in the air conditioner chamber Machine include indoor heat exchanger and humidification component, the humidification component include located at the indoor heat exchanger top and with the interior Heat exchanger reclines the liquid distribution of setting, and the liquid distribution is used for the indoor heat exchanger water drenching, in the liquid distribution The water drenching chamber for water storage is provided with, the water inlet in the water drenching chamber and the apopore in the connection water drenching chamber, the water outlet is connected Hole is arranged at the bottom of the liquid distribution.

Technical solutions of the utility model are reclined setting by that will humidify liquid distribution and the indoor heat exchanger of component, while Liquid distribution bottom sets the apopore in the connection water drenching chamber, enables current through apopore outflow water drenching chamber to indoor heat exchanger Water drenching, the water energy of apopore outflow is enough flowed directly on indoor heat exchanger and along the fin flow down of indoor heat exchanger, room The fin of interior heat exchanger plays guide functions to current, it is to avoid the aggregation of water, the water on fin evaporate with indoor heat exchange plus It is wet, so as to reach more preferable humidifying effect.

Brief description of the drawings

In order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art, below will be to embodiment Or the accompanying drawing to be used needed for description of the prior art is briefly described, it should be apparent that, drawings in the following description are only It is some embodiments of the present utility model, for those of ordinary skill in the art, is not paying the premise of creative work Under, other accompanying drawings can also be obtained according to the structure shown in these accompanying drawings.

Fig. 1 is the humidification component and the exploded pictorial of indoor heat exchanger of the utility model air conditioner room unit first embodiment Figure；

Fig. 2 is the liquid distribution of the air conditioner room unit shown in Fig. 1 along the sectional view of A-A；

Fig. 3 is the structural representation of the liquid distribution of the air conditioner room unit shown in Fig. 1；

Fig. 4 is the structural representation of the liquid distribution of the utility model air conditioner room unit second embodiment；

Fig. 5 is the partial enlarged drawing at B in Fig. 4；

Fig. 6 is the structural representation of the liquid distribution of the utility model air conditioner room unit 3rd embodiment；

Fig. 7 is sectional view of the liquid distribution shown in Fig. 6 along C-C；

Fig. 8 is the partial enlarged drawing at D in Fig. 7；

Fig. 9 is the structural representation of the liquid distribution of the utility model air conditioner room unit fourth embodiment；

Figure 10 is the structural representation of the liquid distribution of the embodiment of the utility model air conditioner room unit the 5th；

Figure 11 is sectional view of the liquid distribution shown in Figure 10 along E-E；

Figure 12 is the partial enlarged drawing at F in Figure 11；

Figure 13 is the structural representation of the liquid distribution of the utility model air conditioner room unit sixth embodiment；

Figure 14 is sectional view of the liquid distribution shown in Figure 13 along G-G；

Figure 15 is the partial enlarged drawing at H in Figure 14.

Drawing reference numeral explanation：

The realization of the utility model purpose, functional characteristics and advantage will be described further referring to the drawings in conjunction with the embodiments.

Specific embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the present utility model, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not making creative work premise Lower obtained every other embodiment, belongs to the scope of the utility model protection.

If it is to be appreciated that related in the utility model embodiment directionality indicate (such as upper and lower, left and right, it is preceding, Afterwards ...), then directionality indicates to be only used for explaining relative between each part under a certain particular pose (as shown in drawings) Position relationship, motion conditions etc., if the particular pose changes, directionality indicates also correspondingly to change therewith.

If in addition, relate to the description of " first ", " second " etc. in the utility model embodiment, should " first ", " the Two " description etc. is only used for describing purpose, and it is not intended that indicating or implying its relative importance or implicit indicate meaning The quantity of the technical characteristic for showing.Thus, " first " is defined, the feature of " second " can express or implicitly include at least one Individual this feature.In addition, the technical scheme between each embodiment can be combined with each other, but must be with ordinary skill Personnel can be implemented as basis, when the combination appearance of technical scheme is conflicting or cannot realize it will be understood that this technical side The combination of case does not exist, not within the protection domain of the utility model requirement yet.

The utility model proposes a kind of air conditioner room unit.

In the utility model embodiment, as shown in Figure 1 to Figure 2, the air conditioner room unit includes indoor heat exchanger 1000 With humidification component 2000, humidification component 2000 is including being located at the top of the indoor heat exchanger 1000 and being pasted with indoor heat exchanger 1000 By the liquid distribution 2100 for setting, liquid distribution 2100 is used to, to the water drenching of indoor heat exchanger 1000, be provided with liquid distribution 2100 For the water drenching chamber 2110 of water storage, the water inlet 2120 in water drenching chamber 2110 and the apopore 2131 in connection water drenching chamber 2110 are connected, Apopore 2131 is arranged at the bottom of liquid distribution 2100.

Specifically, as shown in figure 1, indoor heat exchanger 1000 can be in variforms such as tabular or bending-likes.Generally, room Interior heat exchanger 1000 is located in the air channel of air conditioner room unit, and air flows through indoor heat exchanger 1000 and carries out heat exchange with it, and Surface with indoor heat exchanger 1000 contacts.Humidification component 2000 is set to indoor heat exchanger by the air conditioner room unit 1000 humidifications, so as to improve the air humidity for flowing through indoor heat exchanger 1000.In order to the surface to indoor heat exchanger 1000 is uniform Humidification, the humidification component 2000 includes liquid distribution 2100, for the continuation for ensureing humidifying effect, as shown in Fig. 2 the water drenching Device 2100 is provided with the water drenching chamber 2110 for retaining.Water drenching chamber 2110 is supplied water for convenient, in liquid distribution 2100 The water inlet 2120 connected with water drenching chamber 2110 is provided with, the water inlet 2120 primarily serves the effect at connection water source.The water drenching Device 2100 and indoor heat exchanger 1000 recline settings, and technical solutions of the utility model will be by that will humidify the water drenching dress of component 2000 Put 2100 to be reclined settings with indoor heat exchanger 1000, while setting the water outlet for connecting the water drenching chamber 2110 in liquid distribution 2100 Hole 2131, enables current through the outflow water drenching of apopore 2131 chamber 2110 to the water drenching of indoor heat exchanger 1000, and apopore 2131 flows out Water energy enough flow directly on indoor heat exchanger 1000 and along the fin flow down of indoor heat exchanger 1000, indoor heat exchanger 1000 fin plays guide functions to current, it is to avoid the aggregation of water, water on fin evaporated with indoor heat exchange 1000 plus It is wet, so as to reach more preferable humidifying effect.Simultaneously, it is to avoid because of liquid distribution 2100 and indoor heat exchanger 1000 hypertelorism Cause liquid water loss or flow to the other parts of air conditioner room unit, influence the normal work of air conditioner room unit.Additionally, The bottom that apopore 2131 is arranged on liquid distribution 2100 is more beneficial for the discharge of water, it is not easy to produces ponding, prevents runner from accumulating Dirt.

In the utility model embodiment, the shape of the bottom surface of liquid distribution 2100 and the shape phase of the top surface of indoor heat exchanger 1000 Matching.For example, in certain embodiments, the plate-like setting of indoor heat exchanger 1000, liquid distribution 2100 is in strip.Another In a little embodiments (including embodiment illustrated in fig. 1), indoor heat exchanger 1000 is set in bending, including the bar shaped being connected with each other is changed Hot arc 1100 and arc heat exchanging segment 1200；Liquid distribution 2100 includes the bar segment 2101 of correspondence bar shaped heat exchanging segment 1100, and right Answer the segmental arc 2102 of arc heat exchanging segment 1200.In this way, making the water energy by the outflow of liquid distribution 2100 along indoor heat exchanger 1000 profile Uniform Flow, it is to avoid the local humidity of indoor heat exchanger 1000 is higher and blocks air flow, also avoids part Humidity is relatively low, does not reach expected humidifying effect, is more uniformly distributed the humidity of indoor heat exchanger 1000.

It is uniform fluid flow during promotion water drenching referring to figs. 1 to shown in Fig. 3, the quantity of apopore 2131 is set to multiple, A plurality of exhalant canal is provided during for being sprayed to indoor heat exchanger 1000, enabling current through multichannel outflow water drenching chamber 2110, so that Preferably distribute water.Meanwhile, the multiple apopores 2131 for setting respective numbers are distributed in the bottom of liquid distribution 2100, respectively go out Across a certain distance between water hole 2131, to distribute the water of liquid distribution 2100.In the present embodiment, because air is in room The normal direction of plane passes through where the bearing of trend of interior heat exchanger 1000, bottom even of the multiple apopores 2131 in liquid distribution 2100 Set, after enabling current through multichannel outflow water drenching chamber 2110, to the uniform water drenching of indoor heat exchanger 1000, cause air flow through interior and change Area is humidified during hot device 1000 wider.Multiple apopores 2131 are distributed in the bottom even of liquid distribution 2100, described herein equal It is even to be distributed as that equal spacing is arranged between each two adjacent apopores 2131, humidifying effect can be made evenly.

In actual use, apopore 2131 is arranged by least two apopores 2131 along the bearing of trend of liquid distribution 2100 Cloth is constituted, and multiple apopores 2131 correspond to the diverse location of indoor heat exchanger 1000 respectively.Therefore, can be with from liquid distribution 2100 Equably to each position water drenching of indoor heat exchanger 1000 so that uniform fluid flow is acted on indoor heat exchanger 1000.May be used also Multiple rows of apopore 2131 is set parallel with the bottom of liquid distribution 2100, increase apopore 2131 is at the bottom of liquid distribution 2100 The distribution in portion, so as to increase water drenching scope so that water energy is enough more uniformly sprayed on indoor heat exchanger 1000, is reached more Good water drenching effect.

The row that apopore 2131 is set can be chosen according to actual needs, and setting principle is uniformly can to pour water On indoor heat exchanger 1000.Shown referring to Figures 1 and 2, in the present embodiment, the bottom of the liquid distribution 2100 is provided with a row The apopore 2131.Because indoor heat exchanger 1000 is generally comprised to be spaced along the length direction of the indoor heat exchanger 1000 and arranged Multiple fins 1300 of cloth and wear the heat exchange tube assemblies 1400 being installed on multiple fins 1300, the two neighboring wing A heat exchanger channels are formed between piece 1300.Therefore, in the present embodiment, the particular location of apopore 2131 can be based on indoor heat exchange The distribution situation of the fin 1300 of device 1000 is configured, for example, apopore 2131 is directed at a fin 1300 and setting, being directed at one and change The passage of heat is set or the multiple adjacent heat exchanger channels of alignment are set；As long as the set-up mode of uniform water drenching effect can be reached May be suitable in the technical solution of the utility model, do not limit herein.The concrete shape of apopore 2131 can also root According to needing to be chosen, for example, can be circular hole, bar hole or irregular hole etc..In the present embodiment preferably the apopore 2131 is bar hole, and the bearing of trend of the relatively described liquid distribution 2100 of the bar hole is obliquely installed.Now, by by water outlet Hole 2131 is set to the bar hole being obliquely installed, on the premise of certain distance can be kept between each two apopore 2131, Increase water drenching scope；So as to reach water drenching effect evenly.The width of the bar hole is 0.5-2mm；Specific length regards water drenching Depending on the size of device 2100, the waste caused to prevent current excessive also avoids current too small and influences humidifying effect, It is preferred that the width of the bar hole is in 1mm or so, in this way, water yield is reasonable, preferable humidifying effect can be reached.

It is parallel that two discharge water holes 2131 are set in second embodiment, wherein, the apopore 2131 of adjacent two row can align Set or be staggered；Shown in reference picture 4, the apopore 2131 of preferably adjacent two row is staggered, the apopore of same row The distance between 2131 can be with larger, and the distance between apopore 2131 of adjacent two row also farther out, can avoid apopore 2131 are too near to and produce afflux, prevent from therefore causing water-flow equation uneven, so as to be more beneficial for improving uniform spraying, Optimization humidifying effect.

Fig. 5 is referred to, in certain embodiments, preferably the apopore is circular hole, and the possibility that circular hole Secondary Flow occurs is small, Spray can more they tend to be flowed along center line, and the shape of spray can be more preferable.Because the distance between fin 1300 is relatively near, the circular hole Aperture be 0.5-2mm；The flow and flow velocity that the occurrence in aperture can also refer to water carry out Rational choice, in order to prevent current The excessive and waste that causes, also avoids current too small and influences humidifying effect, the preferably aperture of the circular hole in 1mm or so, in this way, Water yield is more reasonable, can reach preferable humidifying effect.

In order to improve water-flowing form during water outlet, guide functions are improved, current can be made evenly.In 3rd embodiment, Shown in reference picture 6, each apopore 2131 is corresponded to there is provided annular relief 2140, the annular relief is in liquid distribution 2100 Bottom part ring formed around the exit of apopore 2131, it is and raised towards water outlet direction.The hole wall of apopore 2131 is along the convex annular Play portion 2140 to extend, the apopore 2131 for having extended can preferably play guide effect, so that water-flowing form more becomes when obtaining water outlet In into column, so as to improve guide functions, current are made evenly.Obviously, annular relief 2140 can also form barrier, be used for The water outlet aggregation between two neighboring apopore 2131 is intercepted, so as to further improve the uniformity of water outlet, and then improves humidification Effect.

Stream may be hung in annular relief 2140 from the water of the outflow of apopore 2131, it is difficult to dripped, in order to solve this Problem, refers to Fig. 6 to Fig. 8, and in the present embodiment, the free end of the annular relief 2140 is provided with diversion section 2141, institute Diversion section 2141 is stated to be set to the tapered at one end away from the water drenching chamber 2110 from the one end near the water drenching chamber 2110；Pass through Diversion section 2141 is set, and the inclined plane of diversion section 2141 can carry out drainage to the water outlet of correspondence apopore 2131, so as to be gathered in The end center of annular relief 2140, so formed water column/water droplet fall, can effectively solve the problem that extension flow problem, reach more Good drainage effect.For in theory, shown in reference picture 8, the annular relief 2140 is near the water drenching chamber 2110 Length R to the one end away from the water drenching chamber 2110 is more long for one end, then guide effect is better, but length meeting when crossing long production There is a certain difficulty, also, because liquid distribution 2100 and indoor heat exchanger 1000 recline setting, therefore annular relief 2140 Need not set long, therefore, the preferably annular relief 2140 is near the one of the water drenching chamber 2110 in this embodiment The length R of end to one end away from the water drenching chamber 2110 is 1-2mm；So, it is possible to reach preferable drainage effect.

By foregoing indoor heat exchanger 1000 generally comprise along the length direction of the indoor heat exchanger 1000 be intervally arranged it is many Individual fin 1300 and wear the heat exchange tube assemblies 1400 being installed on multiple fins 1300, the two neighboring fin 1300 Between form a heat exchanger channels.Therefore, in fourth embodiment, according to the actual conditions of indoor heat exchanger 1000, current are promoted It is dispersed, in order to ensure that water energy is enough equably poured on whole indoor heat exchanger 1000, liquid distribution 2100 can be set Bottom alignment each passage one apopore 2131 of setting.Now, liquid distribution 2100 can be indoor to each passage water drenching The water drenching amount at each position on heat exchanger 1000 is also relatively average；It is not in the indoor heat exchange of the part of liquid distribution 2100 docking The situation of device 1000, prevents the local humidity of indoor heat exchanger 1000 higher and blocks air flow, also avoids local humidity inclined It is low, do not reach the problem of expected humidifying effect.

Due to the arrangement of fin 1300 of indoor heat exchanger 1000 be than comparatively dense, therefore in the present embodiment, apopore 2131 quantity is also more, the problem of easy water outlet aggregation in order to improve the gap between adjacent apopore 2131 too small, this The technical scheme of utility model is additionally arranged on the bearing of trend of the liquid distribution 2100, two adjacent apopores The line at 2131 mutually close two ends is acute angle or right angle, now, phase with the angle of the bearing of trend of the liquid distribution 2100 The line at the two ends mutually close for two adjacent apopores 2131 is parallel with the bearing of trend of liquid distribution 2100 For situation, can ensure the quantity of apopore 2131 and in the distributed areas of bearing of trend it is constant on the premise of, increase it is adjacent The distance between two apopores 2131 such that it is able to collect after reducing the water outlet closer to the distance of apopore 2131 to a certain extent Cause the situation that water drenching is uneven, so as to improve humidifying effect.During practical operation, Fig. 9 is see, based on this arranging rule, Position to multiple apopores 2131 is selected.

The length of the runner between each apopore 2131 and water inlet 2120 in connection water drenching chamber 2110 is different, causes each The water of apopore 2131 is simultaneously uneven, according to water computing formula：W=Q × t, Q=v × s, W represent water, and Q represents flow (water in the unit interval), v represents flow velocity, and t represents the time, and behalf flows through the sectional area of apopore, so as to draw W=v × s×t.When flow velocity v is identical, some apopores 2131 runner between water inlet 2120 is more long, flows through the apopore 2131 Time, t was short, and the water of distribution is less.In the 5th embodiment, shown in reference picture 10 to 12, the length based on runner is corresponding to increase The cross sectional dimensions (hereinafter collectively referred to as aperture) of the big apopore 2131, so as to increase the sectional area s of the apopore 2131, this reality Apply in example, shown in reference picture 12, the aperture L1 of the apopore 2131 is more than aperture L2, so that increasing water flows through the apopore 2131 Flow Q, its water W being assigned to accordingly is increased, humidification water is rationally utilized, the sprinkle table of heat exchanger 1000 indoors The water in face evenly, improves the humidifying effect of humidification component 2100.Certainly, the mode for increasing the aperture of apopore 2131 has It is various, for example：With runner length equal proportion expand, according to the apopore 2131 at the apopore 2131 of minimum-value aperture Apart from equal proportion expand etc., art technology technical staff can be readily obtained phase by the utility model embodiment and accompanying drawing The technical scheme answered, does not repeat one by one herein.It is apparent that the size of each apopore, according to the apopore and size The setting that is directly proportional of the distance between the minimum apopore, is more beneficial for evenly distributing water according to flow channel length.

In order that water outlet is more smooth, shown in reference picture 13 to Figure 15, in one embodiment, each apopore 2131 is to lean on certainly The one end in the nearly water drenching chamber 2110 is set to the tapered at one end away from the water drenching chamber 2110, and the aperture of apopore 2131 is leaned on certainly The one end in the nearly water drenching chamber 2110 is gradually reduced to 1mm or so to the one end away from the water drenching chamber 2110, described herein Decrement mode has various, such as various bellmouths or the funnel-form for passing through surface blending, it is contemplated that be easy to manufacture and product Uniformity, in the present embodiment, apopore 2131 is round taper hole, round taper hole both can by with constitute the bottom of water drenching chamber 2110 The sheet material in face is integrally formed acquisition, can be processed to be formed by the later stage again, convenient manufacture.Meanwhile, the hole wall of round taper hole For complex-curved hole wall, the uniformity between each hole is higher, and the error in aperture is smaller.Shown in reference picture 15, hole Footpath L4 is more than aperture L3, and for straight hole, the aperture of apopore 2131 is gradually reduced with water outlet direction, and water flows through apopore 2131 along hole wall when flowing, and hydraulic pressure gradually increases, and the hydraulic pressure promotes water to continue along hole wall flow down until by water drive from pouring Water cavity 2110, makes current more smooth.Also, secondary pressurized, the product at apopore 2131 of being more convenient for are formed at apopore 2131 Water is arranged certainly, it is therefore prevented that the hole plug phenomenon that incrustation is caused.

The utility model also proposes a kind of air-conditioner, and the air-conditioner includes air conditioner room unit, the air conditioner room unit Concrete structure employs whole technical schemes of above-mentioned all embodiments due to this air-conditioner with reference to above-described embodiment, therefore together Sample has all beneficial effects that the technical scheme of above-described embodiment is brought, and this is no longer going to repeat them.

Preferred embodiment of the present utility model is the foregoing is only, the scope of the claims of the present utility model is not thereby limited, It is every utility model of the present utility model design under, the equivalent structure made using the utility model specification and accompanying drawing content Conversion, or directly/be used in other related technical fields indirectly and be included in scope of patent protection of the present utility model.

Claims (16)

1. a kind of air conditioner room unit, it is characterised in that including：

Indoor heat exchanger；

Humidification component, including located at indoor heat exchanger top and the liquid distribution of the setting that reclines with the indoor heat exchanger, The liquid distribution is used for the indoor heat exchanger water drenching, and the water drenching chamber for water storage is provided with the liquid distribution, connects The water inlet in the water drenching chamber and the apopore in the connection water drenching chamber, the apopore are arranged at the bottom of the liquid distribution Portion.

2. air conditioner room unit as claimed in claim 1, it is characterised in that the shape of the liquid distribution is changed with the interior The shape of hot device top surface matches.

3. air conditioner room unit as claimed in claim 2, it is characterised in that the quantity of the apopore is multiple, Duo Gesuo State the bottom that apopore is uniformly arranged in the liquid distribution.

4. air conditioner room unit as claimed in claim 3, it is characterised in that multiple apopores are along the liquid distribution Bearing of trend arrangement is in a row.

5. air conditioner room unit as claimed in claim 4, it is characterised in that the apopore is bar hole, the bar hole The bearing of trend of relatively described liquid distribution is obliquely installed.

6. air conditioner room unit as claimed in claim 3, it is characterised in that the bottom of the liquid distribution sets multiple rows of parallel The apopore；Apopore described in each row as described at least two apopore along the liquid distribution bearing of trend arrangement group Into the apopore alignment of adjacent two row sets or is staggered.

7. air conditioner room unit as claimed in claim 6, it is characterised in that the apopore is circular hole.

8. air conditioner room unit as claimed in claim 3, it is characterised in that the bottom of the liquid distribution is provided around each institute State the annular relief of apopore setting.

9. air conditioner room unit as claimed in claim 8, it is characterised in that the free end of the annular relief is provided with water conservancy diversion Section, the diversion section is set from the one end near the water drenching chamber to the tapered at one end away from the water drenching chamber.

10. air conditioner room unit as claimed in claim 3, it is characterised in that the indoor heat exchanger is included along the interior Multiple fins and wear the heat exchange tube assemblies being installed on multiple fins that the length direction of heat exchanger is intervally arranged are adjacent A passage is formed between two fins；Each apopore is directed at a passage and sets.

11. air conditioner room units as claimed in claim 10, it is characterised in that the bottom alignment of the liquid distribution each The passage sets an apopore.

12. air conditioner room units as claimed in claim 11, it is characterised in that on the bearing of trend of the liquid distribution, The line at the mutually close two ends of two adjacent apopores and the angle of the bearing of trend of the liquid distribution be acute angle or Right angle.

13. air conditioner room units as claimed in claim 3, it is characterised in that in apopore described in any two, with it is described enter The size of the shorter apopore of runner between the mouth of a river is less than the water outlet more long with runner between the water inlet The size in hole.

14. air conditioner room units as claimed in claim 13, it is characterised in that the size of each apopore, go out with this The distance between water hole and the smallest size of apopore are directly proportional.

15. air conditioner room unit as any one of claim 1 to 14, it is characterised in that the apopore is close to certainly The one end in the water drenching chamber is set to the tapered at one end away from the water drenching chamber.

16. a kind of air-conditioners, it is characterised in that including the air conditioner room unit as any one of claim 1 to 15.