CN206905238U - Evaporator drain structure and air conditioner - Google Patents

Abstract

Air conditioner technical field is the utility model is related to, discloses a kind of evaporator drain structure and air conditioner.Wherein, the evaporator drain structure, the first drip tray including evaporator body and below evaporator body, evaporator drain structure also includes at least one second drip tray and drainage pipeline, second drip tray is arranged at intervals at the top of the first drip tray and is fixed on evaporator body, and drainage pipeline connects the second drip tray and the first drip tray.The utility model in evaporator body by being arranged at intervals several the second drip trays, each second drip tray is connected with the first drip tray of evaporator body bottom by drainage pipeline respectively, realize that condensed water segmentation thoroughly excludes, solve the problems, such as the condensed water accumulation of evaporator middle and lower part and cause evaporator heat transfer efficiency low, improve the heat exchange efficiency of evaporator.

Description

Evaporator drain structure and air conditioner

Technical field

It the utility model is related to air conditioner technical field, more particularly to evaporator drain structure and air conditioner.

Background technology

When air conditioner is run, evaporator surface can produce condensed water, and condensed water is influenceed along fin down by gravity Stream, is discharged outward after being concentrated to the drip tray of base of evaporator.Therefore, evaporator top condensed water is less, and heat exchange efficiency is higher, Evaporator middle and lower part because the accumulation heat exchange efficiency of condensed water is relatively low, particularly evaporator body height fall it is bigger when It is more prominent to wait this problem.The uneven distribution of condensed water not only reduces the heat exchange efficiency of evaporator as a whole, while also to sky Device design is adjusted to add difficulty；Especially heat pump type air conditioner, when ambient air temperature is relatively low, condensation water electrode holds caused by air conditioner Easily form ice cube, this performance to air conditioner and other security performances can all produce very harmful effect.

Prior art provides a kind of evaporator and the air conditioner using the evaporator, between the evaporator is in fin edges Every setting the 1-10 special-shaped otch for running through the evaporator transverse width, it is equipped with corresponding to each special-shaped incision Drip tray, heat exchanger is divided into multistage from top to bottom, and evaporator as a whole is obliquely installed to windward side side.The evaporator is adopted The structure of condensed water is excluded with segmentation multichannel, realizes and excludes each section of condensed water respectively in operation of air conditioner, reduces condensed water The influence to evaporator middle and lower part heat exchange efficiency is gathered, improves the heat exchange efficiency of evaporator.Although the evaporator is to a certain degree On realize segmentation discharge to condensed water, but still there is heat exchange of the partial condensation water along fin toward dirty centering bottom evaporator to imitate Fruit has an impact, and requires to tilt installation in structure design, and the global design to product has limitation.

Utility model content

Main purpose of the present utility model is to provide a kind of evaporator drain structure, and it is aimed to solve the problem that due under in evaporator The problem of portion's condensed water gathers and causes evaporator heat transfer efficiency low.

To achieve the above object, the utility model proposes a kind of evaporator drain structure, including evaporator body and it is located at The first drip tray below the evaporator body, the evaporator drain structure also include at least one second drip tray and draining Pipeline, second drip tray are arranged at intervals at the top of first drip tray and are fixed on the evaporator body, institute State drainage pipeline and connect second drip tray and first drip tray.

Preferably, the evaporator body is vertically arranged at intervals on first drip tray including at least two The evaporator split of side, one fewer than the quantity of the evaporator split of the quantity of second drip tray, and each described second Drip tray is respectively arranged between each adjacent two evaporator split.

Preferably, the evaporator body also includes being connected between each adjacent two evaporator split for connection The connecting pipe of each evaporator split.

Preferably, each second drip tray is respectively supported at the top of the evaporator split below.

Preferably, each second drip tray is designed with discharge outlet, and the drainage pipeline connects provided with quantity with described second Water pond quantity identical water inlet and the delivery port connected with first drip tray, each water inlet difference of the drainage pipeline Connected with the discharge outlet of each second drip tray.

Preferably, each second drip tray is obliquely installed both facing to one end provided with the discharge outlet.Preferably, each institute State evaporator split and all include several and set laterally side by side and sequentially interconnected long U-tube and be sheathed on the long U-shaped Fin on pipe, the two long U-tubes that are connected are connected by short U-tube.

Preferably, the evaporator drain structure also include two pieces of both ends for being relatively arranged on the evaporator body and with The end plate of the evaporator body connection, the both ends of each second drip tray are fixedly connected with two end plates respectively.

Preferably, the drainline vertical is located at the side of the evaporator body.

The utility model also proposes a kind of air conditioner, including the evaporator drain structure described in any of the above-described.

The utility model proposes a kind of evaporator drain structure, by setting the first drip tray below evaporator body, And be arranged at intervals above the first drip tray it is at least one be fixed on the second drip tray of evaporator body, while pass through drainpipe Road connects the second drip tray and the first drip tray.Wherein, evaporator body is separated at least two by least one second drip tray Individual evaporator split, the condensed water formed in each evaporator split is because Action of Gravity Field drips, accordingly by positioned at its bottom The second drip tray intercept and capture, pass through the first drip tray below drainage pipeline and evaporator body due to the second drip tray and connect It is logical, therefore the condensed water on each second drip tray all converges to the first drip tray uniform effluent again by drainage pipeline, this The evaporator drain structure that utility model proposes realizes condensed water segmentation thoroughly discharge, under effectively prevent in evaporator body The phenomenon of portion's condensed water accumulation, improve the heat exchange efficiency of evaporator.

Brief description of the drawings

, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art Or the required accompanying drawing used is briefly described in description of the prior art, it should be apparent that, drawings in the following description are only It is some embodiments of the 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 dimensional structure diagram of the utility model embodiment evaporator drain structure；

Fig. 2 is the planar structure schematic diagram of the utility model embodiment evaporator drain structure；

Fig. 3 is the structural representation of the second drip tray in the utility model embodiment evaporator drain structure.

Drawing reference numeral explanation：

Label	Title	Label	Title
				Evaporator drain structure	1	Discharge outlet	310
Evaporator body	100	Water inlet	410
				First drip tray	200	Delivery port	420
Second drip tray	300	Long U-tube	111
				Drainage pipeline	400	Bottom plate	320
Evaporator split	110	Side plate	330
				Fixed plate	340

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

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out Clearly and completely describing, it is clear that described embodiment is only part of the embodiment of the present utility model, rather than all 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, belong to the scope of the utility model protection.

It is to be appreciated that the directional instruction (such as up, down, left, right, before and after ...) of institute in the utility model embodiment It is only used for explaining relative position relation under a certain particular pose (as shown in drawings) between each part, motion conditions etc., such as When the fruit particular pose changes, then directionality instruction also correspondingly changes therewith.

In addition, the description for being related to " first ", " second " etc. in the utility model is only used for describing purpose, without being understood that To indicate or implying its relative importance or the implicit quantity for indicating indicated technical characteristic.Thus, define " first ", At least one this feature can be expressed or be implicitly included to the feature of " second ".In addition, the technical side between each embodiment Case can be combined with each other, but must can be implemented as basis with those of ordinary skill in the art, when the combination of technical scheme Occur conflicting or will be understood that the combination of this technical scheme is not present when can not realize, also not in the requires of the utility model Protection domain within.

The utility model proposes a kind of evaporator drain structure.

In the utility model embodiment, evaporator drain structure 1 include evaporator body 100, the first drip tray 200, Second drip tray 300, connection the first drip tray 200 and the second drip tray 300 drainage pipeline 400 and with the first drip tray 200 The drainage arrangement (not shown) of connection.Specifically, the evaporator drain structure 1 includes evaporator body 100 and located at evaporator First drip tray 200 of the lower section of body 100, evaporator drain structure 1 also include at least one second drip tray 300 and drainpipe Road 400, the second drip tray 300 are arranged at intervals at the top of the first drip tray 200 and are fixed on evaporator body 100, draining Pipeline 400 connects the second drip tray 300 and the first drip tray 200.

As shown in Fig. 1 to 2, in evaporator drain structure 1, the first drip tray 200 is arranged at the bottom of evaporator body 100 Portion, in the top of the vertical direction of the first drip tray 200, the second drip tray 300 is disposed through the middle part of evaporator body 100, Connected between wherein the first drip tray 200 and the second drip tray 300 by drainage pipeline 400, the condensation of each second drip tray 300 Water is drained to the first drip tray 200, then the drainage arrangement uniform effluent by the first drip tray 200 by drainage pipeline 400.By There is drainage pipeline 400 to be connected with the first drip tray 200 in the second drip tray 300, the condensed water in the second drip tray 300 is drained to Completely cut off when first drip tray 200 by drainage pipeline 400 and miscellaneous part, the condensed water of evaporator split 110 leads to respectively Cross drainage pipeline 400 all to drain, the middle and lower part of evaporator will not be accumulated to, influence the heat exchange efficiency of lower middle portion evaporator, Therefore it can realize that evaporator condensation moisture section is thoroughly discharged, so as to improve the heat exchange efficiency of evaporator as a whole.

Wherein, the quantity of the second drip tray 300 can be one, or multiple.Therefore evaporator body 100 includes At least two are vertically arranged at intervals at the evaporator split 110 of the top of the first drip tray 200, the second drip tray 300 One fewer than the quantity of evaporator split 110 of quantity, and each second drip tray 300 is respectively arranged on each adjacent two evaporators split Between 110.

As shown in Fig. 1 to 2, when the quantity of the second drip tray 300 is one, evaporator body 100 is divided into two parts, Then the quantity of evaporator split 110 has two, and the second drip tray 300 is among two evaporator splits 110, upper part evaporation The condensed water of device split 110 is all intercepted and captured by the second drip tray 300 and is drained to the first drip tray 200 by drainage pipeline 400, under The condensed water of partial vaporiser split 110 all drops onto the first drip tray 200, and two parts evaporator split 110 connects by first Water pond 200 is unified to drain condensed water.When the quantity of the second drip tray 300 is two, evaporator body 100 is divided into three Point, then the quantity of evaporator split 110 has three, if three evaporator splits 110 are respectively designated as into the first steaming from top to bottom Send out the condensed water of device split 110, the second evaporator split 110 and the 3rd evaporator split 110, then the first evaporator split 110 All intercepted and captured by the second drip tray 300 between the first evaporator split 110 and the second evaporator split 110, the second evaporator The condensed water of split 110 is all by the second drip tray 300 between the second evaporator split 110 and the 3rd evaporator split 110 Intercept and capture, the condensed water of the 3rd evaporator split 110 obtained by the first drip tray 200 of bottom, two the second drip trays 300 due to Connected by drainage pipeline 400 with the first drip tray 200, therefore the first evaporator split 110 and the second evaporator split 110 Condensed water can converge to the first drip tray 200 uniform effluent again respectively, the condensed water of three evaporator splits 110 will not be right Impact each other, so as to realize that the segmentation of condensed water is thoroughly discharged, be advantageous to improve the heat exchange efficiency of evaporator as a whole.When When the quantity of two drip trays 300 is three, four even more, principle is same as above, and therefore not to repeat here.

As shown in Fig. 1 to 2, the evaporator drain structure 1 of the present embodiment, using the second drip tray 300 by evaporator body 100 are separated into two parts evaporator split 110 up and down, and the condensed water of upper part evaporator split 110 is due to the effect drop of gravity Fall in the second drip tray 300, the condensed water of lower part evaporator split 110 is dropped in the first drip tray due to the effect of gravity In 200, because the condensed water of the second drip tray 300 is connected by drainage pipeline 400 with the first drip tray 200, therefore second connects Condensed water in water pond 300 can flow to the first drip tray 200 by drainage pipeline 400, then by being connected with the first drip tray 200 Drainage arrangement (not shown) uniform effluent.

Specifically, the position that the in the vertical direction of the second drip tray 300 is specifically set can according to different concrete conditions and It is fixed, but due in the case where evaporator split 110 is unequal, the product of the condensed water of the larger middle and lower part of evaporator split 110 It is poly- more, in the case of particularly differing larger between evaporator split 110, the condensed water product of larger evaporator split 110 The poly- heat exchange efficiency on whole evaporator body 100 influences to be especially apparent.Thus, it may be preferable to ground, passes through the second drip tray 300 Equal setting is spaced, evaporator body 100 is separated into identical evaporator split 110, makes each section of evaporator split 110 Same heat transfer effect can be reached, be advantageous to when the number of the second drip tray 300 is identical, evaporator body 100 can be optimal Heat transfer effect.

Specifically, each evaporator split 110 all include several long U-tubes 111 for setting laterally side by side and several between Every the fin (not shown) being sheathed on side by side on each long U-tube 111, each two adjacent long U-tubes 111 are by short U-tube is (not shown) to be connected.Several long U-tubes 111 are connected by short U-tube forms the passage of refrigerant, and fin is set in long U Increase heat exchange area on shape pipe 111, the refrigerant in long U-tube 111 is changed into gaseous state from liquid, while absorbs heat, and gas passes through Fin carries out heat exchange, and the moisture content in gas condenses and condensed water is produced on fin to the cold, due to the effect condensed water of gravity Drippage, the condensed water now dripped is by the first drip tray 200 or the second drip tray 300 positioned at the bottom of evaporator split 110 Obtain.Therefore, the shape of the first drip tray 200 or the second drip tray 300 need to be according to the overall structure shape of evaporator split 110 Setting, evaporator split 110 must ensure to steam in the projection of vertical direction in the first drip tray 200 or the second drip tray 300 All condensed waters can be dropped onto in the first drip tray 200 or the second drip tray 300 in hair device split 110.

Preferably, in order to simplify evaporation structure, evaporator body 100 also includes being connected to each adjacent two evaporators split For the connecting pipe of each evaporator split 110 of connection between 110.Pass through pipeline communication, evaporation between evaporator split 110 Device body 100 only needs to set a refrigerant inlet and a refrigerant exit, the then refrigerant passage being connected with evaporator body 100 Minimum number two is only needed to ensure evaporator normal operation, now the connection member needed for evaporator is minimum, and structure is most Simply.In addition, according to different designs and product needs, connecting pipe connection can also be not required between each evaporator split 110, then Between each evaporator split 110 independently of each other, there are respective refrigerant inlet and refrigerant exit respectively, it is cold between each evaporator split 110 Condensate can equally realize segmentation thoroughly discharge, improve the heat exchange efficiency of evaporator as a whole.

Preferably, the second drip tray 300 is respectively supported at the top of evaporator split 110 below.Due to the second water receiving The dead weight of disk 300 and the condensed water intercepted and captured have certain gravity, must when selecting fixed component in order to ensure the stability of structure Must consider when evaporator produces condensed water to the load-bearing requirements of the second drip tray 300, and by the second drip tray 300 due in Among two evaporator splits 110, the second drip tray 300 is supported by the top of evaporator split 110 of lower section, favorably Load-bearing requirements when fixed component selection is reduced；The quantity of fixed component can be even reduced, the second drip tray 300 directly passes through The support at the top of lower section evaporator split 110 and stable be arranged between evaporation body split.

Preferably, for whole discharge structure more firm, evaporator drain structure 1 is also relatively arranged on including two pieces The both ends of evaporator body 100 and the end plate being connected with evaporator body 100, the both ends of each second drip tray 300 are respectively with two End plate is fixedly connected.It is relative with the both ends of short U-tube arc close to long U-tube 111 such as in the evaporator split 110 of U-tube Two end plates are set.Second drip tray 300 can be fixedly connected on the second drip tray 300 by modes such as screw, welding and be steamed above On the end plate for sending out the both ends of device split 110, the both ends of evaporator split 110 below the second drip tray 300 can also be fixedly connected on On end plate, be advantageous to prevent the relative evaporation device split 110 of the second drip tray 300 from moving and leading to not the cold of evaporator above Condensate is intercepted and captured completely.

Specifically, as shown in figure 3, the second drip tray 300 includes bottom plate 320 and the side plate with being arranged at the edge of bottom plate 320 330, the head and the tail of side plate 330 are sequentially connected, and bottom plate 320 and side plate 330 enclose box body, form the water receiving chamber of the second drip tray 300. The shape of bottom plate 320 is directed to the shape of evaporator split 110 and set, and side plate 330 can be vertically installed on bottom plate 320, In order to prevent the condensed water on fin from splashing the second drip tray 300 can be caused can not to catch condensed water completely, side plate 330 can Certain angle is tilted toward away from the direction of box body, increases the water receiving area of the second drip tray 300.

In order to realize being fixedly connected for the second drip tray 300 and above-mentioned end plate, at the both ends of each bottom plate of second drip tray 300 Relative spacing sets two fixed plates 340 coordinated with above-mentioned two end plates.The spacing of two fixed plates 340 is smaller than or more than both ends Plate, when two fixed plates 340 are when being smaller than two end plates, two fixed plates 340 are matched somebody with somebody close to the end of evaporator body 100 with two end plates Close, when the spacing of two fixed plates 340 is more than two end plates, two fixed plates 340 are matched somebody with somebody away from the end of evaporator body 100 with two end plates Close, respectively connected two fixed plates 340 of two end plates and the second drip tray 300 by fasteners such as bolt, screws, you can realize Second drip tray 300 is fixed on end plate, makes whole discharge structure more firm.

Preferably, each second drip tray 300 is designed with discharge outlet 310, and drainage pipeline 400 is provided with quantity and the second drip tray 300 quantity identical water inlets 410 and the delivery port 420 connected with the first drip tray 200, each water inlet of drainage pipeline 400 410 discharge outlet 310 respectively with each second drip tray 300 connects.In order to realize that the second drip tray 300 passes through drainage pipeline 400 The requirement of draining, the second drip tray 300 must be provided with discharge outlet 310, and discharge outlet 310 can be arranged on the bottom of the second drip tray 300 Portion, it can also be arranged at the bottom margin of side, the condensed water for alloing to drop onto on the second drip tray 300 voluntarily discharges. Discharge outlet 310 connects with the water inlet 410 of drainage pipeline 400, wherein the second drip tray 300 and drainage pipeline 400 can be integrated Shaping can also be connected by other connection members, but must ensure discharge outlet 310 and the sealing that water inlet 410 connects, and be prevented cold The extravasation of condensate impacts to evaporator other parts.And the delivery port 420 of drainage pipeline 400 connects with the first drip tray 200 It is logical, the condensed water of each evaporator split 110 is converged to the first drip tray 200 uniform effluent again.Drainage pipeline 400 goes out It can also be multiple that the mouth of a river 420, which can be one,, can each second drip tray when having multiple second drip tray 300 300 are connected by independent drainage pipeline 400 with the first drip tray 200, then the delivery port 420 and water inlet of drainage pipeline 400 410 quantity are consistent, and the delivery port 420 of drainage pipeline 400 connects with the first drip tray 200, each second drip tray 300 it is cold Condensate independent discharge is to the first drip tray 200；Or what is be connected with each second drip tray 300 is the one of drainage pipeline 400 Bar lateral, each lateral of drainage pipeline 400 connect with main pipeline, and the delivery port 420 of main pipeline connects with first Water pond 200 is connected, and now the condensed water of each second drip tray 300 is discharged by lateral respectively, after converging to main pipeline Unify the uniform effluent again after delivery port 420 accumulates to the first drip tray 200 again；Drainage pipeline 400 can also connect two Between second drip tray 300, finally connect with the first drip tray 200, such as when the second drip tray 300 there are three, be corresponding with again Three drainage pipelines 400, the second drip tray 300 above converge to the second middle drip tray by the first drainage pipeline 400 300, the condensed water of the second middle drip tray 300 converges to the second following drip tray 300 by the second drainage pipeline 400, The condensed water that the second following drip tray 300 is converged converges to the first drip tray of bottom by the 3rd drainage pipeline 400 200, the condensed water in each second drip tray 300 converges to the first drip tray 200 uniform effluent again successively.As shown in Fig. 1 to 2, Preferably, drainage pipeline 400 is located at the side of the evaporator body 100 vertically.Drainage pipeline 400 is vertically arranged at evaporation The side of device body 100, the space shared by drainage pipeline 400 is on the one hand saved, on the other hand can be simple by this Structure enables condensed water quickly to discharge.

In addition, the delivery port 420 of above-mentioned drainage pipeline 400 directly can also be connected with drainage arrangement respectively, then each The equal independent discharge of condensed water in two drip trays 300 and the first drip tray 200.

Preferably, as shown in Fig. 2 in order to accelerate the speed of draining, each second drip tray 300 is both facing to provided with discharge outlet 310 one end is obliquely installed.Each second drip tray 300 tilts towards the one end for having discharge outlet 310, due to the effect of gravity, drippage Water on to the second drip tray 300 can accelerate to flow toward inclined one end, so as to accelerate the speed of draining.In addition the second drip tray 300 can also be horizontally disposed with, and by the connection effect of discharge outlet 310, can equally realize the draining of the second drip tray 300.

The utility model also proposes a kind of air conditioner, and the air conditioner includes above-mentioned evaporator drain structure 1, the evaporator The concrete structure of discharge structure 1 is with reference to above-described embodiment, because air conditioner employs whole technical sides of above-mentioned all embodiments Case, therefore all beneficial effects at least caused by the technical scheme with above-described embodiment, this is no longer going to repeat them.

Preferred embodiment of the present utility model is the foregoing is only, not thereby limits the scope of the claims of the present utility model, Every equivalent structure change under inventive concept of the present utility model, made using the utility model specification and accompanying drawing content Change, or directly/be used in other related technical areas indirectly and be included in scope of patent protection of the present utility model.

Claims (10)

1. a kind of evaporator drain structure, including evaporator body and the first drip tray below the evaporator body, Characterized in that, the evaporator drain structure also includes at least one second drip tray and drainage pipeline, second drip tray It is arranged at intervals at the top of first drip tray and is fixed on the evaporator body, drainage pipeline connection described the Two drip trays and first drip tray.

2. evaporator drain structure as claimed in claim 1, it is characterised in that the evaporator body includes at least two edges Vertical direction is arranged at intervals at the evaporator split above first drip tray, and the quantity of second drip tray is than the steaming It is few one to send out the quantity of device split, and each second drip tray is respectively arranged between each adjacent two evaporator split.

3. evaporator drain structure as claimed in claim 2, it is characterised in that the evaporator body also includes being connected to respectively For the connecting pipe of each evaporator split of connection between the adjacent two evaporator split.

4. evaporator drain structure as claimed in claim 3, it is characterised in that each second drip tray is respectively supported at it At the top of the evaporator split of lower section.

5. evaporator drain structure as claimed in claim 2, it is characterised in that each second drip tray is designed with draining Mouthful, the drainage pipeline connects provided with quantity with the second drip tray quantity identical water inlet and with first drip tray Delivery port, the discharge outlet of each water inlet of the drainage pipeline respectively with each second drip tray connects.

6. evaporator drain structure as claimed in claim 5, it is characterised in that each second drip tray is both facing to provided with institute The one end for stating discharge outlet is obliquely installed.

7. evaporator drain structure as claimed in claim 2, it is characterised in that each evaporator split all includes several The long U-tube that sets laterally side by side and several intervals are sheathed on the fin on each long U-tube side by side, each adjacent two The long U-tube is connected by short U-tube.

8. the evaporator drain structure as described in any one of claim 1 to 7, it is characterised in that the evaporator drain structure Also include two pieces of both ends for being relatively arranged on the evaporator body and the end plate that is connected with the evaporator body, each described the The both ends of two drip trays are fixedly connected with two end plates respectively.

9. the evaporator drain structure as described in any one of claim 1 to 7, it is characterised in that the drainline vertical is set In the side of the evaporator body.

10. a kind of air conditioner, it is characterised in that including the evaporator drain structure as described in any one of claim 1 to 9.