CN208296223U - Anti-air leakage structure and air conditioner - Google Patents

Abstract

Anti-air leakage structure and air conditioner provided by the utility model, are related to air-conditioning technical field.The anti-air leakage structure includes air channel structure and lamina tecti, and air channel structure has air outlet, and cornice is provided on air channel structure, cornice is arranged close to air outlet, and lamina tecti lid closes air outlet, and, lamina tecti is supported with cornice, so that air fluid forms negative pressure at the end that supports of lamina tecti and cornice.The cornice of the anti-air leakage structure is arranged close to air outlet, lamina tecti can cover conjunction air outlet, and it is supported with cornice, air fluid can be made to form negative pressure at the end that supports of lamina tecti and cornice, therefore, lamina tecti and air channel structure fit clearance Air Leakage can be reduced, the cold wind overflow of air duct blowout is reduced.

Description

Anti-air leakage structure and air conditioner

Technical field

The utility model relates to air-conditioning technical field, in particular to a kind of anti-air leakage structure and air conditioner.

Background technique

To guarantee product quality, air-conditioning etc. is required to carry out damp state experiment.Due to its lamina tecti of existing air-conditioning and air duct Fit clearance between structure is easy to leak out, and when doing the experiment of damp state, cold wind is easily accessible display box region, so that display Box is inside and outside to form the temperature difference, causes display box inner cavity to have condensed water precipitation, influences air-conditioning service performance, may cause security risk.

Utility model content

In view of this, the utility model is directed to a kind of anti-air leakage structure, to change the cold wind trend of air outlet leakage, Achieve the purpose that reduce and leak out.

In order to achieve the above objectives, the technical solution of the utility model is achieved in that

A kind of anti-air leakage structure provided by the utility model, including air channel structure and lamina tecti, the air channel structure have Air outlet, and cornice is provided on the air channel structure, the cornice is arranged close to the air outlet, and the lamina tecti lid closes The air outlet, also, the lamina tecti is supported with the cornice, so that air fluid is in the lamina tecti and the cornice It supports end and forms negative pressure.

Further, the air channel structure includes air duct shell and coaming plate, and the coaming plate and the air duct shell pass through institute Cornice connection is stated, the lamina tecti is supported with the cornice, also, the lamina tecti is bonded with the coaming plate.

Further, the cornice is vertical with the air duct shell connect, and the coaming plate is vertical with the cornice to be connect.

Further, the coaming plate and the cornice are annular in shape, and the cornice is located on outside the air channel structure Side.

Further, the air duct shell, the cornice and the coaming plate are integrally formed.

Further, the width of the cornice is more than or equal to 6mm.

Further, the lamina tecti includes lid and mounting portion interconnected, and the cover cap closes the air outlet, And the lid is supported close to the side of the mounting portion with the cornice.

Further, lid eaves is provided on the lamina tecti, the lid eaves is set on the lid, and with the cornice It supports.

Further, the lid eaves, the lid and the mounting portion are integrally formed.

Compared with the existing technology, anti-air leakage structure described in the utility model has the advantage that

Anti-air leakage structure described in the utility model is provided with cornice on air channel structure, and cornice is arranged close to air outlet, Lamina tecti can cover conjunction air outlet, and support with cornice, and air fluid can be made to bear in the end formation that supports of lamina tecti and cornice Pressure, therefore, it is possible to reduce lamina tecti and air channel structure fit clearance Air Leakage reduce the cold wind overflow of air duct blowout.

The another object of the utility model is to propose a kind of air conditioner, uses Anti-air-leakage knot provided by the utility model Structure can reduce the probability that the cold wind of air duct blowout is contacted with damp-heat air inside display box, and then reduce the precipitation of condensed water.

In order to achieve the above objectives, the technical solution of the utility model is achieved in that

A kind of air conditioner disclosed by the utility model, including display box and the anti-air leakage structure.

The anti-air leakage structure includes air channel structure and lamina tecti, and the air channel structure has air outlet, and the wind Cornice is provided in road structure, the cornice is arranged close to the air outlet, and the lamina tecti lid closes the air outlet, also, The lamina tecti is supported with the cornice, so that air fluid forms negative pressure at the end that supports of the lamina tecti and the cornice.

The display box is installed on the lamina tecti, and is located at the side of the cornice.

Compared with the existing technology, air conditioner described in the utility model has the advantage that

Air conditioner described in the utility model uses anti-air leakage structure provided by the utility model, the cold sky in air duct When outside from the air outlet overflow of air-flow body, need to form negative pressuren zone by the end that supports of lamina tecti and cornice, it is difficult to which overflow is leaked out It is few, therefore display box is mounted on the side on lamina tecti close to leakproof wind groove, can reduce the cold wind and display box of air duct blowout The probability of internal damp-heat air contact, and then reduce the precipitation of condensed water, guarantee air conditioner using safe.

Detailed description of the invention

The attached drawing for constituting a part of the utility model is used to provide a further understanding of the present invention, this is practical new The illustrative embodiments and their description of type are not constituteed improper limits to the present invention for explaining the utility model.? In attached drawing:

Fig. 1 is the structural schematic diagram of anti-air leakage structure described in the utility model first embodiment.

Fig. 2 is a kind of structural schematic diagram at visual angle of air channel structure described in the utility model first embodiment.

Fig. 3 is the structural schematic diagram at another visual angle of air channel structure described in the utility model first embodiment.

Fig. 4 is the enlarged drawing in Fig. 2 at B.

Fig. 5 is the enlarged drawing in Fig. 1 at A.

Fig. 6 is the partial structural diagram of air conditioner described in the utility model second embodiment.

Description of symbols:

1- anti-air leakage structure；2- air channel structure；3- lamina tecti；4- air outlet；5- display box；6- cornice；The air duct 7- shell； 8- coaming plate；9- lid；10- mounting portion；11- lid eaves；12- air conditioner；13- shell；14- pedestal.

Specific embodiment

It should be noted that in the absence of conflict, the feature in the embodiments of the present invention and embodiment can To be combined with each other.

In addition, the term " first " being previously mentioned in the embodiments of the present invention, " second " etc. are only used for distinguishing description, It is not understood to indicate or imply relative importance.

The utility model will be described in detail below with reference to the accompanying drawings and embodiments.

First embodiment

Fig. 1 is the structural schematic diagram of anti-air leakage structure 1 described in the present embodiment.Fig. 1 is please referred to, present embodiment discloses one Kind anti-air leakage structure 1 comprising air channel structure 2 and lamina tecti 3, air channel structure 2 have air outlet 4, and the lid of lamina tecti 3 closes air outlet 4。

Wherein, air channel structure 2 is for installing blower (not shown), and lamina tecti 3 is for installing display box 5.

It is understood that in the prior art, since there are fit clearances between air channel structure 2 and lamina tecti 3, so that Under refrigeration mode, the cold air stream blown from blower knows from experience the gap overflow between air channel structure 2 and lamina tecti 3, further invades Enter display box 5, and contacted with the damp-heat air inside display box 5, condensed water is precipitated, causes the dangerous of display box 5.

As an implementation, in the present embodiment, cornice 6 is provided on air channel structure 2, cornice 6 is set close to air outlet 4 It sets, also, lamina tecti 3 is supported with cornice 6, so that air fluid forms negative pressure at the end that supports of lamina tecti 3 and cornice 6.

It is understood that negative pressure is formd at the end that supports of the two, so that cold sky since lamina tecti 3 and cornice 6 support Air-flow body can avoid fit clearance, reduce overflow.

Fig. 2 is a kind of structural schematic diagram at visual angle of air channel structure 2 described in the present embodiment.Fig. 3 is described in the present embodiment Air channel structure 2 another visual angle structural schematic diagram.Incorporated by reference to referring to Fig. 2 and Fig. 3, in the present embodiment, air channel structure 2 is wrapped Air duct shell 7 and coaming plate 8 are included, coaming plate 8 is connect with air duct shell 7 by cornice 6.

Wherein, coaming plate 8 is bonded in the state of supporting for lamina tecti 3 with cornice 6 with lamina tecti 3.

It is understood that lamina tecti 3 is bonded with coaming plate 8, can further enhance between lamina tecti 3 and air channel structure 2 Compactness, prevent from leaking out.

In the present embodiment, air duct shell 7 is in hollow structure, and top opening, formation air outlet 4 are used for and lamina tecti 3 Cooperation.

The middle part of air duct shell 7 is for installing blower.

Preferably, being open rectangular in the present embodiment.It should be appreciated that opening can root in other preferred embodiments According to needing to be set as different shape.

Fig. 4 is the enlarged drawing in Fig. 2 at B.Incorporated by reference to referring to Fig. 2 and Fig. 4, in the present embodiment, 6 ring of cornice is set and opening week Edge, and vertical with air duct shell 7 connect.Cornice 6 is also in rectangular ring.

It should be noted that in order to make cold air fluid form negative pressure, this implementation between lamina tecti 3 and air duct shell 7 In example, the width of cornice 6 is greater than the thickness of lamina tecti 3, also, the width of cornice 6 is more than or equal to 6mm.

It should be noted that the width of cornice 6 refers to cornice 6 from the side connecting with air duct shell 7 to cornice 6 and coaming plate The width of the side of 8 connections.The thickness of lamina tecti 3 refers to the thickness of a part connecting with air duct shell 7.

In the present embodiment, the also rectangular ring-type of coaming plate 8, and it is vertically connected at the periphery of cornice 6.

It is understood that the step-like structure that coaming plate 8, cornice 6 and the connection of air duct shell 7 are formed, wherein cornice 6 is used It is supported in lamina tecti 3, coaming plate 8 is used for and lamina tecti 3 is bonded.

And, it is understood that the cross-sectional area of coaming plate 8 is greater than the cross-sectional area of air channel structure 2.Therefore, Ke Yifang Just the cooperation of lamina tecti 3 and air channel structure 2.

Lamina tecti 3 protrudes into coaming plate 8 and is bonded with coaming plate 8, also, lamina tecti 3 is further bonded with cornice 6, also, cornice 6 width is greater than the thickness of lamina tecti 3, and air stream body is enabled to form negative pressure at the end that supports of lamina tecti 3 and cornice 6.

It is connect it is understood that cornice 6 is vertical with air duct shell 7, coaming plate 8 is vertical with cornice 6 to be connect, and enables to push up Cover board 3 and the abutting arrangement of air channel structure 2 are closer, and lamina tecti 3 is conveniently bonded with coaming plate 8.

It should be noted that be also provided with multiple fixation holes on coaming plate 8, to facilitate consolidating for lamina tecti 3 and air channel structure 2 It is fixed.

As an implementation, in the present embodiment, air duct shell 7, cornice 6 and coaming plate 8 are integrally formed.

Fig. 5 is the enlarged drawing in Fig. 1 at A.Incorporated by reference to referring to Fig.1 and Fig. 5, in the present embodiment, lamina tecti 3 includes mutually interconnecting The lid 9 and mounting portion 10 connect.

Lid 9 and mounting portion 10 are connected with each other.Wherein, lid 9 is used for and air channel structure 2 cooperates, and mounting portion 10 is for pacifying Fill electric-controlled box.

It should be noted that the integral inclined setting in the top surface of lid 9 and mounting portion 10 in the present embodiment, so that electric-controlled box is pacified The height of dress is slightly above air channel structure 2.

In the present embodiment, lid 9 closes air outlet 4 for covering, and lid 9 is supported close to the side of mounting portion 10 with cornice 6 It holds.

As an implementation, lid eaves 11 is provided on lamina tecti 3, lid eaves 11 is set on lid 9, and with cornice 6 It supports.

It should be noted that the thickness of lid eaves 11 is less than the thickness of osculum, and lid eaves 11 is bonded with coaming plate 8, therefore, empty Gas can form negative pressure close to the end that supports of cornice 6 in lid eaves 11, and the fit clearance being difficult between layers of eaves mouth 6 and lid eaves 11 is overflow Stream.

In the present embodiment, lid eaves 11, lid 9 and mounting portion 10 are integrally formed.

When anti-air leakage structure 1 disclosed in the present embodiment assembles, lid eaves 11 is caught in coaming plate 8, and be bonded with coaming plate 8, then Further lamina tecti 3 is moved down, so that lid eaves 11 is supported with cornice 6.

Second embodiment

Fig. 6 is the partial structural diagram of air conditioner 12 described in the present embodiment.Fig. 6 is please referred to, present embodiment discloses A kind of air conditioner 12 comprising shell 13, pedestal 14, blower, display box 5 and anti-air leakage structure 1.

Wherein, anti-air leakage structure 1 is identical with the structure of anti-air leakage structure 1 disclosed in first embodiment, here no longer It repeats.

In in air channel structure 2, display box 5 is installed on lamina tecti 3 assembling, and is located at the side of cornice 6.Anti-air-leakage Structure 1 is installed in shell 13, also, shell 13 is connect with pedestal 14.

It is understood that since the end that supports of lamina tecti 3 and cornice 6 forms negative pressure, so that cold air fluid is difficult From the fit clearance overflow of lamina tecti 3 and cornice 6, thus it can reduce the 5 damp and hot sky in inside of cold wind and display box of air duct blowout The probability of gas contact, reduces the precipitation of condensed water, guarantees the safety in utilization of air conditioner 12.

When air conditioner 12 disclosed in the present embodiment assembles, after assembling is got well, the lamina tecti 3 of display box 5 will be installed Close to air channel structure 2, and lid eaves 11 is made to be caught in coaming plate 8, to be bonded with coaming plate 8, then further moved down lamina tecti 3, So that lid eaves 11 is supported with cornice 6, assembly is completed.

To sum up, anti-air leakage structure 1 disclosed in the utility model embodiment is provided with cornice 6, cornice 6 on air channel structure 2 It is arranged close to air outlet 4, lamina tecti 3, which can cover, closes air outlet 4, and supports with cornice 6, and air fluid can be made in lamina tecti 3 Negative pressure is formed with the end that supports of cornice 6, therefore, it is possible to reduce 2 fit clearance Air Leakage of lamina tecti 3 and air channel structure is reduced The cold wind overflow of air duct blowout.

Air conditioner 12 disclosed in the utility model embodiment use anti-air leakage structure 1 provided by the utility model, air duct Interior cold air fluid is difficult from when 4 outside overflow of air outlet, needing the end that supports by lamina tecti 3 and cornice 6 to form negative pressuren zone It with overflow, leaks out few, therefore display box 5 is mounted on the side on lamina tecti 3 close to leakproof wind groove, air duct blowout can be reduced The probability that cold wind is contacted with 5 inside damp-heat air of display box, and then the precipitation of condensed water is reduced, guarantee the use peace of air conditioner 12 Entirely.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Within the spirit and principle of utility model, any modification, equivalent replacement, improvement and so on should be included in the utility model Protection scope within.

Claims (10)

1. a kind of anti-air leakage structure, which is characterized in that including air channel structure (2) and lamina tecti (3), air channel structure (2) tool Have air outlet (4), and be provided with cornice (6) on the air channel structure (2), the cornice (6) sets close to the air outlet (4) It sets, lamina tecti (3) lid closes the air outlet (4), also, the lamina tecti (3) is supported with the cornice (6), so that empty Air-flow body forms negative pressure at the end that supports of the lamina tecti (3) and the cornice (6).

2. anti-air leakage structure as described in claim 1, which is characterized in that the air channel structure (2) include air duct shell (7) and Coaming plate (8), the coaming plate (8) are connect with the air duct shell (7) by the cornice (6), the lamina tecti (3) and the eaves Mouth (6) supports, also, the lamina tecti (3) is bonded with the coaming plate (8).

3. anti-air leakage structure as claimed in claim 2, which is characterized in that the cornice (6) is vertical with air duct shell (7) Connection, the coaming plate (8) is vertical with the cornice (6) to be connect.

4. anti-air leakage structure as claimed in claim 2, which is characterized in that the coaming plate (8) and the cornice (6) are in ring Shape, and the cornice (6) is located on the outside of the air channel structure (2).

5. anti-air leakage structure as claimed in claim 2, which is characterized in that the air duct shell (7), the cornice (6) and institute State coaming plate (8) integrated molding.

6. anti-air leakage structure as described in claim 1, which is characterized in that the width of the cornice (6) is more than or equal to 6mm.

7. anti-air leakage structure as described in claim 1, which is characterized in that the lamina tecti (3) includes lid interconnected (9) and mounting portion (10), lid (9) lid close the air outlet (4), and the close mounting portion of the lid (9) (10) side is supported with the cornice (6).

8. anti-air leakage structure as claimed in claim 7, which is characterized in that be provided with lid eaves (11), institute on the lamina tecti (3) It states lid eaves (11) to be set on the lid (9), and is supported with the cornice (6).

9. anti-air leakage structure as claimed in claim 8, which is characterized in that the lid eaves (11), the lid (9) and the peace Dress portion (10) is integrally formed.

10. a kind of air conditioner, which is characterized in that including display box (5) and such as the described in any item Anti-air-leakage knots of claim 1-9 Structure (1), the display box (5) are installed on the lamina tecti (3), and are located at the side of the cornice (6).