CN1105883C - Indoor unit for air conditioner - Google Patents

Abstract

An indoor unit for an air conditioner comprises a unit main body (1) having a front panel (12) and a rear panel (3), a heat exchanger contained in the unit main body, consisting of a front heat exchanger component (7A) and a rear heat exchanger component (7B), and having an inverted-V-shaped profile, a front drain pan (9A) and a rear drain pan (9B) located below the front and rear heat exchanger components (7A, 7B), respectively, for receiving drain water created by and dropping from the front and rear heat exchanger components, and a flume portion (17A, 17B) bridging the rear drain pan and the front drain pan for guiding the drain water collected in the rear drain pan, to the front drain pan.

Description

The indoor set of air-conditioner

Technical field

The present invention relates to install the indoor set of the air-conditioner of the heat exchanger that has the profile of being inverted V-arrangement, particularly related to the improvement of the structure that is used to handle the condensed water that falls from heat exchanger.

Background technology

Usually, adopt the air-conditioner of kind of refrigeration cycle to comprise that an indoor set that is positioned at the air conditioning chamber is positioned at outdoor location outdoor and that link to each other with indoor set by refrigerant pipe and electric wire with one.

Present many customer requirements manufacturer reduces those device size and their desired spaces.Therefore, manufacturer is making great efforts to satisfy these requirements, and increases the ability of heat exchange.

For example, publication number is that the Japanese utility model application of 4-106425 discloses a kind of indoor set of equipping a kind of air-conditioner of heat exchanger.This heat exchanger comprises respectively facing to heat exchanger component behind preceding heat exchanger component of a header board of constituent apparatus main body and a upper plate and.This heat exchanger has the profile of being inverted V-arrangement.

Because as above the heat exchanger of Gou Chenging has bigger heat exchange area than the heat exchanger of common plane formula, less vertical extension is arranged so it can be configured than the latter.Therefore the former heat exchanger can have the vertical extension of improved heat-exchange capacity and reduction.

In being inverted V-arrangement profile heat exchanger, condensed water generates simultaneously in the past and in the heat exchanger component of back, and the preceding drain pan neutralization before this produced simultaneously condensed water accumulates in respectively and is arranged under the heat exchanger component is positioned at the back drain pan under the drain pan parts of back.

Before and the back drain pan make separately, preceding drain pan is connected on the header board, then drain pan is connected in that also to be connected on the header board be on the back plate of another one parts of apparatus main body.

Yet the said structure that comprises a large amount of parts must increase the desired expense of metal die of molded drain pan of being used for.This cost for indoor set produces adverse influence.In addition, the variation of the thermal coefficient of expansion between these parts causes noise during operation in the junction of parts probably.

In addition, be discharged to the outside at condensed water that the back drain pan that is arranged under the after heat interchanger is assembled by a plurality of discharge outlet of on the drain pan of back, forming with by drainpipe.Because the inside of back drain pan is remaining under the vacuum pressure between the air-conditioning operational period, so the air portion branch of not subjected exchange still sucks in the drain pan of back by discharge outlet.

During cooling, the undressed thereby high air of high humidity temperature surrounds the back drain pan of the condensed water of the cooling assembled of trickling in it.

As a result, dew drips and is easy to condense upon on the external peripheral surface of back drain pan, and such dew drips and may fall into airflow channel and diffuse into the air conditioning chamber with the air that cools off from drain pan, thereby can destroy the comfort conditions of room air.

JP-196151/93 discloses a kind of indoor set of air-conditioner, but it fails to address the above problem.

Summary of the invention

The indoor set that the objective of the invention is to overcome above-mentioned shortcoming and a kind of air-conditioner is provided, it can be with plain mode with low cost manufacturing and assembling, and it is set has the heat exchanger of being inverted the V-arrangement profile not have to reveal and drips the drain pan that condenses upon the condensed water that is used to admit the heat exchanger generation, thereby can realize comfortable air conditioning.

In order to achieve the above object, the indoor set of air-conditioner provided by the present invention comprises:

The apparatus main body that plate behind a header board and is arranged;

Be contained in a heat exchanger in this apparatus main body, it comprises behind a preceding heat exchanger component and one heat exchanger component and a kind of profile of being inverted V-arrangement is arranged;

It is characterized in that described indoor set also comprises:

Lay respectively at before this and the back heat exchanger component under preceding drain pan and one after drain pan, be used to admit produce by before this and back heat exchanger component and from its condensed water that falls; With

With this back drain pan and should before drain pan connect so that the diversion part of drain pan before will accumulating in condensed water in the drain pan of back and being directed to,

Wherein should the back drain pan, this preceding drain pan and will this back drain pan and this diversion of connecting of preceding drain pan partly with after plate form integral body;

This diversion partly comprises one first diversion part and one second diversion part, wherein, first diversion part connects between a side of side of back drain pan and preceding drain pan, and second diversion part connects between an opposite side end parts of opposite side end parts of back drain pan and preceding drain pan, and first and second diversions part is extended along the opposite side end parts of airflow channel respectively;

This apparatus main body has allows the suction hole that makes extraneous air introducing device main body, allow air by apparatus main body guiding airflow channel and allow the blast orifice that air is directed to the apparatus main body outside; This apparatus main body is holding fan inside, is used for that air introduced heat exchanger by this suction hole and the air that is used for being obtained after will heat exchange blows out from blast orifice by airflow channel; This diversion part is partly extended along the side of airflow channel;

This fan inside comprises a fan motor, and one end is connected in the cross-current fan on the turning cylinder of fan motor and the supporting member of an other end that is supporting long fan.

Description of drawings

Can understand the present invention more fully from the following detailed description in conjunction with the accompanying drawings.Wherein:

Fig. 1 is the perspective view of first embodiment of the invention air-conditioner indoor set;

Fig. 2 is the longitudinal sectional view of the indoor set of Fig. 1;

Fig. 3 is a decomposition diagram, and it illustrates the back plate that constitutes an indoor set main body part, the supporting arrangement of fan inside and fan;

Fig. 4 is a decomposition diagram, and it illustrates the back plate, the motor fixer of first cover piece and a formation fan support device part;

Fig. 5 is the perspective view that expression first cover piece and motor fixer are connected in the state on the plate of back;

Fig. 6 is that expression first cover piece and motor fixer are connected on the plate of back, and fan inside and heat exchanger are connected in the perspective view of the state on the composite structure;

Fig. 7 is a decomposition diagram, and it shows the back plate, one second cover piece and constitute a bearing plate of a fan support device part;

Fig. 8 is that expression second cover piece and bearing plate are connected in the state perspective view on the plate of back;

Fig. 9 is a perspective view, and it shows second cover piece and bearing plate and is connected on the plate of back and fan inside and heat exchanger are connected in state on the composite structure;

Figure 10 is the state diagram that expression first and second cover pieces are connected in the diversion part of back plate;

Figure 11 is used to explain view how to make the back plate;

Figure 12 is the longitudinal sectional view of the diversion part of the expression second embodiment of the present invention;

Figure 13 is the longitudinal sectional view of the diversion part of the expression third embodiment of the present invention;

Figure 14 is the longitudinal sectional view of the diversion part of the expression fourth embodiment of the present invention;

Figure 15 is the longitudinal sectional view of the diversion part of the expression fifth embodiment of the present invention;

Figure 16 is the longitudinal sectional view of the diversion part of the expression sixth embodiment of the present invention;

The specific embodiment

Explain each embodiment of the present invention in detail referring now to accompanying drawing.

Accompanying drawing 1-11 represents the indoor set of the air-conditioner of first embodiment of the invention.

As illustrated in fig. 1 and 2, it shows the formation of air-conditioner indoor set.Indoor set main body 1 comprises plate 3 behind a header board 2 and.Header board 2 has front surface that has preceding suction hole 2a that grid 4 is installed and the upper surface that has suction hole 2b that grid 5 is installed.

Apparatus main body 1 is holding along the air filter 6 and the heat exchanger 7 of the bow shape of suction hole 2a and 2b extension.

Heat exchanger 7 comprise one with preceding suction hole 2a opposed before heat exchanger component 7A, with the opposed back of last suction hole 2b heat exchanger component 7B, and be placed on secondary unit parts 8 between back heat exchanger component 7B and the last suction hole 2b.

Before the upper part of heat exchanger component 7A and back heat exchanger component 7B contact with each other and their end portion is separated from each other.In other words, heat exchanger 7 has the profile of being inverted V.

As the end portion of header board 2, the position of the bottom of preceding heat exchanger component 7A is lower than the position of the bottom of back heat exchanger component 7B, and the position of its preceding drain pan 9A is lower than the end portion of preceding heat exchanger component 7A slightly.On the other hand, the position of back drain pan 9B is lower than the end portion of back heat exchanger component 7B slightly, the position of the end portion of heat exchanger component 7A before then the position of the end portion of heat exchanger component 7B is higher than.

Preceding and back drain pan 9A and 9B and back plate 3 integrally constitute as a whole.A plurality of rib 91A of drain pan 9A extend along identical direction with a plurality of rib 91B that constitute back drain pan 9B before constituting.

Fan inside 11 be positioned at by the heat exchanger 7 of being inverted V-arrangement limited the space, promptly between preceding and back heat exchanger component 7A and 7B.In other words, fan inside 11 is surrounded by parts 7A and 7B substantially.

As shown in Figure 3, fan inside 11 has a cross-current fan 12, the fan motor 13 that its turning cylinder 13a links to each other with the end plate 12b of cross-current fan 12 and one are supporting the supporting member 14 of the bolster 12a that stretches out from the another one end plate 12c of cross-current fan 12.The axial length of fan 12 equals the width (not shown) of heat exchanger 7, and its opposite end accurately aligns with the opposite end of heat exchanger 7.

One first fan supporting part 15 is formed on one of back plate 3 vertically end (right-hand member of accompanying drawing 3), and the another one that one second fan supporting part 16 is formed on back plate 3 is vertically held (left end).

An extremely narrow groove part (after this being called ' the first diversion part 17A ') is formed within the first fan supporting part 15, and a similar groove part (after this being called ' the second diversion part 17B ') is formed within the second fan supporting part 16.

Airflow channel 18 is formed by plate after the bending.

The airflow channel 18 that is formed by plate after the bending 3 is arranged between two diversion part 17A and the 17B, and within it, a plurality of ribs 19 extend with fixing interval along the longitudinal.

Blast orifice 20 forms along the fore-end of airflow channel 18.Preceding drain pan 9A is along the fore-end setting of blast orifice 20, and then drain pan 9B is provided with along the upper part of airflow channel 18.

The first and second diversion part 17A and 17B have upper part that is connected with the side end branch of back drain pan 9B and the end portion that is connected with the side end branch of preceding drain pan 9A in addition respectively.In other words, diversion part 17A and 17B constitute the communication passage that back and preceding drain pan 9B and 9A are communicated with each other.

Preceding drain pan 9A, back drain pan 9B all integrally forms with back plate 3 with first and second diversion part 17A that are connected preceding and back drain pan 9A and 9B and 17B.

The fan motor 13 of fan inside 11 is supported by the first fan supporting part 15, and this point will make an explanation later in further detail.Fan motor 13 is fixed on the first fan supporting part 15 by the supporting by the second fan supporting part 16, and this point will be explained later in further detail.Supporting member 14 is fixed on the second fan supporting part 16 by bearing plate 22.

The first and second cover piece 23A link to each other with bearing plate 22 with motor fixer 21 respectively with 23B.Each has a cross section (under shed is promptly arranged) of being inverted U-shaped cover piece 23A and 23B, and is installed in respectively on the diversion part 17A and 17B of the inside that is formed on fan supporting part 15 and 16, closes the space that is partly formed by diversion whereby.

The supporting structure that is used for supports fans motor 13 that uses in the first fan supporting part 15 is at length explained now.

As shown in Figure 4, the airflow channel end plate 25 of a bow shape partly stretches out from the side of airflow channel 18.Wearing plate 26A is with a preset distance setting of distance airflow channel end plate 25.The first diversion part 17A is illustrated in the space that forms between airflow channel end plate 25 and the wearing plate 26A.

As shown in the accompanying drawing 10, the discharge outlet part 27 of following perforate and the side part formation integrally of back drain pan 9B are arranged as only.The perforate of discharge outlet part 27 is facing to a receiving portion 28a of the upper end that is located at the first diversion part 17A.

In the first diversion part 17A, a vertical part 28b extends from the lower end of receiving portion 28a.In addition, a downward-sloping slightly sloping portion 28c extends from the lower end of vertical part 28b, and is connected with preceding drain pan 9A.

Under the situation of fan inside 11 assemblings, the vertical part 28B of the first diversion part 17A is positioned at after the cross-current fan 12, and sloping portion 28c is positioned under the fan 12, and this point will be explained afterwards in detail.

Consult accompanying drawing 4 now again, wearing plate 26A has a semicircle limit part.Admit plate 26B to extend in the outside of wearing plate 26A for one in parallelly, and a semicircle limit part is also arranged, the radius of this semicircle limit part is slightly greater than the radius of the semicircle limit part of wearing plate 26A.

One by plate after the bending 3 that form and bow shape supporting part 28 that deep camber is arranged is arranged on the outside of admitting plate 26B.

Being installed in the first interior cover piece 23A of the first diversion part 17A has the tube portion 29 of a square-section on its top.

Cover piece 23A except that tube portion 29 partly has the inversion U-shaped cross-section.Be installed at cover piece 23A under the state of diversion part 17A, this has the unlimited side of the part of being inverted U-shaped cross-section to keep parallel with the basal surface of the first diversion part 17A, and a preset distance is arranged betwixt.

The inner surface portion of the first cover piece 23A (the basal surface part of being inverted the U-shaped cross-section part is arranged) has predetermined curvature.

The first cover piece 23A is connected with motor fixer 21 by the articulated elements 30 that is commonly referred to as " P-P is hinged " with tube portion 29 opposed those ends.

Motor fixer 21 comprises a semicircle standing part 31, stretches out and have betwixt fixed head 32a and the 32b and the radially-protruding closure plate 33 from standing part 31 along its side of a close clearance from the basic middle body of standing part 31.

The end of fixed head 32a forms semicircle, and its curvature is identical with the curvature of the semicircle limit part of wearing plate 26A, and the end of fixed head 32B forms semicircle simultaneously, and its curvature is identical with the curvature of the semicircle limit part of admitting plate 26B.

Standing part 31 has identical curvature with the semicircle inner surface portion of the first cover piece 23A.The closure plate 33 and the first cover piece 23A are opposed, and articulated elements 30 places therebetween.

As shown in Figure 5, when motor fixer 21 when the position (thereby closed space that is limited by diversion part 17A) that the first cover piece 23A is installed in the first diversion part 17A turns to back plate 3 around articulated elements 30, the part of cover piece 23A and standing part 31 forms a circular portion.

Simultaneously, wearing plate 26A and admittance plate 26B align with fixed head 32a and 32b respectively, form a circular hole with predetermined diameter whereby.In addition, the supporting part 28 of the part of standing part 31 and back plate 3 forms a circular portion.

Now please consulting the state that accompanying drawing 10, the first cover piece 23A are installed in the first diversion part 17A once more now explains in detail.

The receiving portion 28a of the first diversion part 17A, vertical part 28b and sloping portion 28c constitute the U-shaped cross-section part that last perforate is arranged.

Its following open end that the tube portion 29 of the rectangular cross section of the first cover piece 23A has its that be meshed with the discharge outlet part 27 of back drain pan 9B to go up open end and be connected with the last open end of the sloping portion 28c of a part that constitutes diversion part 17A.Therefore, tube portion 29 aligns with the receiving portion 28a and the vertical part 28b of a part that constitutes diversion part 17A.

Except the part of the inversion U-shaped cross-section of tube portion 29 is closed the space that is limited by sloping portion 28c.

See also accompanying drawing 6 then, explain now in order to fan inside 11 and heat exchanger 7 are connected in the device on the plate 3 of back.The fan motor 13 that this device is used for driving fan inside 11 and heat exchanger 7 is connected in the first fan supporting part 15.

Explain as reference accompanying drawing 4, after the first cover piece 23A is installed in the first diversion part 17A, motor fixer 21 is rotated around articulated elements 30, so that expose the first fan supporting part 15 and fan attachment motor 13 thereon.

The fan motor 13 that will link to each other with cross-current fan 12 is placed on the first fan supporting part 15, around articulated elements 30 motor fixer 21 is rotated then, so that semicircle standing part 31 is installed on the external peripheral surface of fan motor 13, as shown in Figure 6.

Like this, fan motor 13 just is installed in the circular hole that the standing part 31 by the supporting part 28 of the first fan supporting part 15 and motor fixer 21 limited.

In addition, a boss 13c (seeing Figure 13) who stretches out from the end of fan motor 13, turning cylinder 13a also stretches out from fan motor 13, is installed in the circular hole that is limited by the edge part branch of admitting plate 26B and fixed head 32B.

Because the end 21a of motor fixer 21 and contact with back plate 3 integrally formed boss c, as shown in figure 10, so end 21a can be fixed on the boss c by hold-down screw 35.As a result, motor fixer 21 is just fixed fan motor 13 reliably.

Be installed in the circular hole that the edge part branch by wearing plate 26A and fixed head 32A limits by end boss 13c, just can be with fan motor 13 axial location.

As shown in Figure 6, a boss 13b who stretches out from the other end of fan motor 13 is supported by a dimeric fixture 36.As a result, fan motor 13 just is fixed on the first fan supporting part 15 reliably.

The first cover piece 23A imbrication is on the end plate 12b of cross-current fan 12 and on that surface that is provided with closure plate 33 of the standing part 31 of motor fixer 21 (still, the imbrication state does not give in the accompanying drawings and illustrating).Therefore, the end plate 12b of fan 12 is surrounded by the part with standing part 31 motor fixer 21 the first cover piece 23A.

By (making an explanation later on) in some way supporting member 14 is connected on the second fan supporting part 16, then heat exchanger 7 is arranged in the assembly of finishing on the precalculated position as shown in Figure 6.

Explain now be used for supporting supporting member 14 in the used structure of the second fan supporting part 16.

As shown in Figure 7, one has the airflow channel end plate 37 at bow shape edge partly to stretch out at a side of airflow channel 18.Admit plate 38 to stretch out apart from a preset distance place of end plate 37 for one that constitutes the second fan supporting part 16 in this side part.

Space between end plate 37 and admittance plate 38 forms the second diversion part 17B.In other words, the second diversion part 17B is by that part of composition of airflow channel 18 extension between end plate 37 and admittance plate 38.

For the structure of the second diversion part 17B and the relation between the second diversion part 17B and the back drain pan 9B, do not give detailed explanation, because they are similar to structure and the relation between the first diversion part 17A and the back drain pan 9B of the first diversion part 17A, explained with reference to accompanying drawing 4 and 10 for the latter.

The second cover piece 23B is installed on the second diversion part 17B, so that the closed space that is limited by diversion part 17B.Do not give detailed explanation for the structure of the second cover piece 23B and the relation between cover piece 23B and the diversion part 17B, because they are similar to structure and the relation between cover piece 23A and the diversion part 17A of the first cover piece 23A, and the latter had explained with reference to accompanying drawing 4 and 10.

Bearing plate 22 by thinner than articulated elements 30 and can be easily before and after or about distortion a flexibility strip portion 39 and couple together with the end of the second cover piece 23B.

Bearing plate 22 comprises an installing ring 40, from installing ring 40 radially-protruding closure plates 41, a plurality of brace 42 and a plurality of screws 43 that connecting hole is arranged.

As shown in Figure 8, when the second cover piece 23B is installed on the second diversion part 17B, so that the closed space that is limited by diversion part 17B, when bearing plate 22 turns to back plate 3 around strip portion 39 then, bearing plate 22 is contacted with the admittance plate 38 that constitutes the second fan supporting part 16, and an end of closure plate 41 is placed on the top edge of admitting plate 38.Under this state, the connecting hole of brace 42 aligns with screw (not shown) on a boss that forms on the plate 3 of back.

Be used for as shown in Figure 9 the device that fan inside 11 and heat exchanger 7 are connected on the plate 3 of back will be made an explanation now.More particularly, the setting of this device be used for the second fan supporting part, 16 upper supports constitute fan inside 11 a part supporting member 14 and be used to arrange heat exchanger 7.

If, in a side of fan inside 11, cross-current fan 12 be connected in the first fan supporting part 15 on the turning cylinder of fan motor 13 link to each other.

As mentioned above, at first, the second cover piece 23B is installed on the second diversion part 17B, bearing plate 22 turns to the outside of the second cover piece 23B once more around strip portion 39 then,, whereby the second fan supporting part 16 is exposed, so that cross-current fan 12 is connected thereon.

Supporting member 14 is installed on the installing ring 40 of bearing plate 22.Afterwards, bearing plate 22 rotates around band 39, so that turn back on the cover piece 23B.Under this state, supporting member 14 keeps being installed on the installing ring 40 of bearing plate 22.

Then, mobile bearing plate 22 is so that be installed in supporting member 14 on the bolster 12a that stretches out from an other end of cross-current fan 12.

Under bearing plate 22 is placed on situation on the second fan supporting part 16, the connecting hole of brace 42 is connected with screw (not shown) on being formed on the second fan supporting part 16, so bearing plate 22 can be secured on the plate 3 of back by the hold-down screw that is screwed in these screws.

Therefore, the supporting member 14 that is supporting cross-current fan 12 has been connected on the second fan supporting part 16 reliably, and fan motor 13 has been fixed on the first fan supporting part 15.This means that fan inside 11 has been fixed on the plate 3 of back.

The second cover piece 23B imbrication is on the end plate 12c of fan 12, and this kind situation is not given and being illustrated in the accompanying drawings.

Afterwards, arrange heat exchanger 7, make whereby wherein, and heat exchanger 7 to be fixed on the connecting hole and screw 43 centerings of bearing plate 22 of end plate 7c of heat exchanger 7 on the bearing plate 22 screw 35 insertions.

In the indoor set that as above constitutes, cross-current fan 12 is rotated by fan motor 13, so that the indoor air that desire is regulated makes air pass through heat exchanger 7, so that the heat exchange of enforcement air by in preceding suction hole 2a and the last suction hole 2b suction apparatus main body 1 whereby.Air is imported into airflow channel 18 and is blown into indoor by blast orifice 20.

The closure plate 33 and 41 that stretches out on motor fixer 21 and bearing plate 22 is installed in the side with heat exchanger 7 of being inverted the V-arrangement profile respectively, whereby closed heat exchanger 7 and prevent that indoor air from introducing heat exchanger by its side.

During cooling operations, in heat exchanger 7, produce condensed water.The condensed water that produces in preceding heat exchanger component 7A is assembled in preceding drain pan 9A, and is assembled in the drain pan 9B of back by the condensed water that back heat exchanger component 7B produces.

Because the position of drain pan 9A before the position of back drain pan 9B is higher than, so the condensed water of assembling in the drain pan 9B of back is directed into first and second diversion part 17A and the 17B on two opposite sides that are arranged on back drain pan 9B, drain pan 9A before being directed to then.The condensed water of assembling in preceding drain pan 9A is discharged to outdoor.

Because as mentioned above, be used for the diversion part 17A of direct condensed water and 17B and be placed on the airflow channel 18 that the air by heat exchanger 7 coolings is able to pass through, so partly revealing, diversion do not drip cohesion.In addition, back drain pan 9B do not require use resemble the outer air in those air conditioning chambers of under habitual situation, using may be by its outer discharge outlet that is introduced into, so air can not be introduced into heat exchanger by discharge outlet, thereby can not have and reveal a coacervation.

Because preceding and back drain pan 9A and 9B and back plate 3 integral body form and do not have the coupling part, so can accurately being connected in, they comprise fan 11, on the fan system of nozzle etc., and make indoor set avoid the sort of noise that may produce in the coupling part.

Because the first and second diversion part 17A and 17B are positioned at two opposed sides of airflow channel 18, so they can not produce very big influence to fan performance, the wind of fan inside 11 can not produce very big influence to the condensed water of assembling yet in the diversion part simultaneously.

Though can not stop the air among the drain pan 9B of back to enter diversion part 17A and 17B by drain pan mouth 27, but when air when contacting by condensation water-cooled diversion part 17A and 17B, it can not be condensed into to reveal drips, because it has stood heat exchange in heat exchanger 7.

The space that is limited by the first and second diversion part 17A and 17B is respectively by the first and second cover piece 23A and 23B closure.This structure can prevent fully that dust from entering the diversion part, therefore can prevent to stop up the diversion part because of dust.

Tube portion 29 with rectangular cross section is arranged on the vertical part 28b of each diversion part 17A and 17B.If have that a part being inverted U-shaped cross-section is arranged on that vertical part 28b goes up so that the closed space that limits by vertical part 28b, outside then condensed water may leak into by the gap that forms betwixt.Yet, in fact, be have rectangular cross section tube portion 29 closures the space that limits by vertical part 28b, therefore can not form the gap betwixt.Therefore the outside that can not leak of condensed water or enter vertical part 28b from the outside.

Because the first and second cover piece 23A and 23B distinguish imbrication on the end plate 12b and 12c of cross-current fan 12, thus can be minimum by end plate 12b and 12c from the air of airflow channel 18 leakages, therefore can limit the reduction of fan performance.

Motor fixer 21 can be around articulated elements 30 from back plate 3 turn-ofves, and this facilitates and cross-current fan 12 is carried out such as cleaning maintenance works such as replacing.

Carry out maintenance work, must mobile motor fixer 21.Yet at this moment, the first cover piece 23A must keep being installed on the first diversion part 17A.

For this reason, motor fixer 21 links to each other with the first cover piece 23A by articulated elements 30, makes moving of motor fixer 21 can not influence the first cover piece 23A.In addition, whole because cover piece 23A and motor fixer 21 form each other, so the quantity of parts and required expense can reduce.

Because bearing plate 22 is by linking to each other with the second cover piece 23B with thin strip portion 39 than articulated elements 30 is soft more, so be installed at cover piece 23B under the situation of diversion part 17B, bearing plate 22 can be easily with respect to plate 3 front and back, back or move left and right.This facilitates the cross-current fan is carried out such as maintenance works such as cleaning, replacings.

For carrying out upkeep operation, must mobile bearing plate 22.Yet at this moment, the second cover piece 23B must keep being installed on second diversion part.

For this reason, bearing plate 22 links to each other with the second cover piece 23B by strip portion 29, makes moving of bearing plate 22 can not influence the second cover piece 23B.In addition, whole because cover piece 2 3B and bearing plate 22 form each other, so the quantity of parts and required expense can reduce.

The rib 91A of drain pan 9A extends on identical direction with identical angle with the rib 91B that constitutes back drain pan 9B before constituting.

In order to make preceding and back drain pan 9A and 9B and back plate 3 formation integral body, adopt the mould 90A-90B that is shown in accompanying drawing 11 to carry out injection-molding.Because rib 91A extends on identical direction with identical angle with 91B, so be used for removing along identical direction with the mould of back drain pan 9A and 9B before the mold pressing.

This means especially, is included in to be used for behind the injection-molding mould 90A of plate 3 among the mould 90A-90B and can be used for before the mold pressing and back drain pan 9A and 9B, and this helps to reduce cost.

Though in the above-described embodiment, the first and second diversion part 17A and 17B are made up of the concave portions of U-shaped cross-section, and their structure is not limited thereto, but can make following change:

Because first and second diversions partly are mutually symmetrical, only first is explained.

Accompanying drawing 12 illustrates a diversion part 50 of the second embodiment of the present invention.Diversion part 50 comprises a first wall 51 away from airflow channel 18, near one second wall 52 of airflow channel 18, and one the 3rd wall 53 between them and with these walls plate 54 connected to one another.Therefore, diversion part 50 has the basic cross section of E shape that is.Comprise that first to the 3rd wall 51-53 has very high rigidity with the diversion part 50 of the plate 54 that is connected them.

The first and the 3rd wall 51 and 53 and plate 54 form the passage P that allows that condensed water W flows together.

The opposite end of passage P is connected with back drain pan 9B and preceding drain pan 9A respectively, and one of opposite end of close back drain pan 9B is by the drain pan 9B closure between the second and the 3rd wall 52 and 53.

The 3rd wall 53 is lower than second wall 52.

During cooling operations, condensed water W produces from heat exchanger 7 and oozes.The flow through passage P of diversion part 50 of the condensed water W that assembles in the drain pan 9B of back is before accumulating in then among the drain pan 9A.

In other words, the passage P that condensed water W flows through and limited by the first and the 3rd wall 51 and 53, and second wall 52 is not cooled off by condensed water W.Therefore, do not have reveal to drip on the wall surface a that is condensate in airflow channel 18 opposed second walls 52, condensed water W is diffused into indoor situation and is avoided.

Even a large amount of condensed water W accumulates among the drain pan 9B of back and from passage P and overflows, the water of overflow also can be before the second and the 3rd wall 52 and 53 exhibitions be directed into drain pan 9A.Therefore condensed water W can not flow into airflow channel 18.

In addition, because the 3rd wall 53 is lower than second wall 52, so second wall 52 can prevent condensed water W, if overflow, quilt looses by the wind of airflow channel 18 and is diffused in the airflow channel 18.

Figure 13 illustrates a diversion part 60 of the third embodiment of the present invention.Diversion part 60 comprises a first wall 61 away from airflow channel 18, one second wall 62 near airflow channel 18, one the 3rd wall 63 between them, with one first plate 64 following connected to one another of the first and the 3rd wall 61 and 63 with the top of the second and the 3rd wall 62 and 63 one second plate 65 connected to one another.Therefore, diversion part 60 has the basic cross section of S shape that is.

The passage P that is used to condensed water W is flow through is within it limited by the first and the 3rd wall 61 and 63 and first plate 64.

Because in the diversion part 60 that as above constitutes, drain pan 9A before condensed water W flows to from back drain pan 9 by the passage P that limits between the first and the 3rd wall 61 and 63 cools off so can prevent the second wall 62 water W that is condensed.Therefore not reveal and drip on the surperficial a that can be condensate in airflow channel 18 opposed second walls 62, so water droplet can not be diffused in the air conditioning chamber.

In addition, thermal insulation barriers 66 with high effect of heat insulation is arranged in then can more effectively prevent from the space that is limited by the second and the 3rd wall 62 and 63 and second plate 65 to reveal to drip is condensate on the surface of second wall 62, thereby diversion part 50 simpler drawing water structures than second embodiment can be provided.

Because in this example, be installed in thermal insulation barriers 66 between the second and the 3rd wall 62 and 63 not directly towards airflow channel 18, so thermal insulation barriers 66 can not be thrown off and contact with cross-current fan 12 from these walls.

Accompanying drawing 14 illustrates a diversion part 70 of the fourth embodiment of the present invention.Diversion part 70 comprises a first wall 71 away from airflow channel 18, one second wall 72 near airflow channel 18, one the 3rd wall 73 between first and second walls 71 and 72, a wall 74 between the second and the 3rd wall 72 and 73, with first, third and fourth wall 71,73 and 74 one first plate 75 following connected to one another and with second and top one second plate 76 connected to one another of wall 72 and 74.

Be used to make condensed water W to be limited by the first and the 3rd wall 71 and 73 and first plate 75 from the passage P that wherein flows through.In addition, thermal insulation barriers 77 be arranged on by second and the space that limited of wall 72 and 74 and second plate 76 in.

As above the diversion part 70 of Gou Chenging can provide the advantage identical with diversion part 50.

In addition, thermal insulation barriers 77 has very high effect of heat insulation, thereby can prevent from effectively to reveal to drip and be condensate on the surperficial a of second wall 72.

Accompanying drawing 15 illustrates a diversion part 80 of the fifth embodiment of the present invention.Diversion part 80 comprises a first wall 81 away from airflow channel 18, one second wall 82 near airflow channel 18, one the 3rd wall 83 between them, with a side part one first plate 84 connected to one another of the bottom of the first and the 3rd wall 81 and 83 and second wall with the top of the second and the 3rd wall 82 and 83 one second plate 85 connected to one another.Therefore diversion part 80 has the basic cross section of P shape that is.There is the diversion part 80 of first to the 3rd wall 81-83 that couples together by first plate 84 that very high rigidity is arranged.

Be used to make condensed water W to limit by the first and the 3rd wall 81 and 83 and first plate 84 from the passage P that wherein flows through.

Because in the diversion part 80 that as above constitutes, drain pan 9A before condensed water W flows to from back drain pan 9B by the passage P that limits between the first and the 3rd wall 81 and 83, so can prevent the second wall 82 water W that is condensed cools off, therefore, do not reveal and drip on the surperficial a that can be condensate in airflow channel 18 opposed second walls 82, so water droplet can not be diffused in the air conditioning chamber.

Accompanying drawing 16 illustrates a diversion part 100 of the sixth embodiment of the present invention.Diversion part 100 comprises a first wall 101 away from airflow channel 18, one second wall 102 near airflow channel 18, between them at that part of one three wall 103 of the close preceding drain pan 9A of the diversion part 100 condensed water W of place to flow than low speed, with first to the 3rd a wall 101-103 plate 104 connected to one another, will be by a closed closure member 105 of upstream side (this side of promptly close back drain pan 9B) in the second and the 3rd wall 102 and 103 spaces that limited.The first and the 3rd wall 101 and 103 defines and makes condensed water W from its passage P that flows through.

Because in the diversion part 100 that as above constitutes, condensed water W flows with higher speed in the part near back drain pan 9B, so, if condensed water W contacts with second wall 102, almost do not reveal and drip and can condense.On the other hand, though condensed water W is flowing with lower speed near preceding drain pan 9A part, it only flows in the passage P that limits between the first and the 3rd wall 101 and 103, does not therefore reveal to drip can be condensate on the surperficial a of second wall 102.Therefore diversion part 100 can provide the advantage the same with diversion part 50.

Claims (14)

1. the indoor set of an air-conditioner, it comprises:

The apparatus main body that plate behind a header board and is arranged;

Be contained in a heat exchanger in this apparatus main body, it comprises behind a preceding heat exchanger component and one heat exchanger component and a kind of profile of being inverted V-arrangement is arranged;

It is characterized in that described indoor set also comprises:

Lay respectively at before this and the back heat exchanger component under preceding drain pan and one after drain pan, be used to admit produce by before this and back heat exchanger component and from its condensed water that falls; With

With this back drain pan and should before drain pan connect so that the diversion part of drain pan before will accumulating in condensed water in the drain pan of back and being directed to,

Wherein should the back drain pan, this preceding drain pan and will this back drain pan and this diversion of connecting of preceding drain pan partly with after plate form integral body;

This diversion partly comprises one first diversion part and one second diversion part, wherein, first diversion part connects between a side of side of back drain pan and preceding drain pan, and second diversion part connects between an opposite side end parts of opposite side end parts of back drain pan and preceding drain pan, and first and second diversions part is extended along the opposite side end parts of airflow channel respectively;

This apparatus main body has allows the suction hole that makes extraneous air introducing device main body, allow air by apparatus main body guiding airflow channel and allow the blast orifice that air is directed to the apparatus main body outside; This apparatus main body is holding fan inside, is used for that air introduced heat exchanger by this suction hole and the air that is used for being obtained after will heat exchange blows out from blast orifice by airflow channel; This diversion part is partly extended along the side of airflow channel;

This fan inside comprises a fan motor, and one end is connected in the cross-current fan on the turning cylinder of fan motor and the supporting member of an other end that is supporting long fan.

2. indoor set as claimed in claim 1 is characterized in that, each should precedingly all be made of a plurality of ribs with the back drain pan, and these ribs extend along identical direction with identical angle.

3. indoor set as claimed in claim 1, it is characterized in that, the opposed side of back drain pan has the discharge outlet part that opens wide respectively downwards, and each first and second diversion part all is useful on a upper part as receiving portion of the condensed water that admittance discharges by the discharge outlet part of back drain pan, be communicated with this receiving portion and be positioned at a vertical part after the fan inside and a sloping portion that extends and be communicated with along the bottom of fan inside from lower end of this vertical part with preceding drain pan.

4. indoor set as claimed in claim 3 is characterized in that first and second diversions partly have U-shaped cross-section, and first and second cover pieces are installed in respectively on first and second diversions part.

5. indoor set as claimed in claim 4 is characterized in that, each all has the vertical part that is installed in first and second diversions parts respectively and is fixed on tube portion on the discharge outlet part of back drain pan in first and second cover pieces.

6. indoor set as claimed in claim 4 is characterized in that, first cover piece is connected on the motor fixer by the articulated elements that rotates in a predetermined direction, and the fan motor that motor fixer will be included in the inner fan is fixed on the plate of back.

7. indoor set as claimed in claim 4 is characterized in that, second cover piece by front and back or about can be connected on the bearing plate by a movable strip device, and supporting a supporting member that is included in the inner fan.

8. indoor set as claimed in claim 4 is characterized in that, first and second cover pieces are respectively on the end plate of the cross-current fan of imbrication in being included in inner fan.

9. indoor set as claimed in claim 1, it is characterized in that, diversion partly is included in the first wall of the outside of apparatus main body along its width extension, partly be parallel to one second wall that first wall extends in the inside of apparatus main body along width and along the side of airflow channel, between first and second walls, extend in parallel and limit one the 3rd wall of allowing condensed water from its passage that flows through with first wall with them.

10. indoor set as claimed in claim 9 is characterized in that diversion partly has the cross section of E shape.

11. indoor set as claimed in claim 10 is characterized in that, the 3rd wall is lower than second wall.

12. indoor set as claimed in claim 10 is characterized in that, the 3rd wall is drain pan longitudinal extension forward from the bottom of diversion part, and the space that is limited by the second and the 3rd wall is in diversion bottom closure partly.

13. indoor set as claimed in claim 9 is characterized in that, the top of the second and the 3rd wall is connected to each other, and diversion partly has the cross section of S shape.

14. indoor set as claimed in claim 13 is characterized in that, a thermal insulation barriers is arranged between the second and the 3rd wall.

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