CN107687699A - Air deflection assemblies and there is its air conditioner - Google Patents

Abstract

The invention provides a kind of air deflection assemblies and there is its air conditioner, air deflection assemblies include internal air baffle and the outer wind deflector being arranged on the outside of internal air baffle, and air deflection assemblies also include：Heat generating member, heat generating member are arranged between internal air baffle and outer wind deflector.The air deflection assemblies of the present invention solve the problems, such as that condensate can be generated in the outer surface of wind deflector in air conditioner running of the prior art.

Description

Air deflection assemblies and there is its air conditioner

Technical field

The present invention relates to field of air conditioning, in particular to a kind of air deflection assemblies and has its air conditioner.

Background technology

When air conditioner is in refrigeration mode, because the temperature of external environment is higher, and the temperature of the wind of air conditioner blowout compares Low, both have larger temperature difference.Therefore, condensate can be generated in the outer surface of wind deflector in air conditioner running, if solidifying Bear water phenomenon it is serious when have condensate drippage, the indoor floor of user is caused damage.

The content of the invention

It is a primary object of the present invention to provide a kind of air deflection assemblies and there is its air conditioner, to solve prior art In air conditioner running in can wind deflector outer surface generate condensate the problem of.

To achieve these goals, according to an aspect of the invention, there is provided a kind of air deflection assemblies, including interior wind-guiding Plate and the outer wind deflector being arranged on the outside of internal air baffle, air deflection assemblies also include：Heat generating member, heat generating member are arranged on internal air baffle Between outer wind deflector.

Further, heat generating member is electric heating part.

Further, heat generating member is heating wire.

Further, heat generating member is U-shape structure.

Further, heat generating member is arranged on the outer wall of internal air baffle and/or on the inwall of outer wind deflector.

Further, the first buckle is provided with outer wind deflector, heat generating member is fastened in the first buckle.

Further, the first buckle is multiple that multiple first buckles are arranged at intervals.

Further, multiple first buckles are set in a row.

Further, the first buckle is two rows, and two openings that ranked first buckle are oppositely arranged.

Further, internal air baffle connects with outer wind deflector clamping, bonding or by fastener.

Further, the first Access Division is provided with outer wind deflector, is provided with internal air baffle and is mutually fitted with the first Access Division The second Access Division matched somebody with somebody, the first Access Division and the second Access Division clamping, are moved along the first direction with limiting internal air baffle.

Further, spacing preiection is provided with outer wind deflector, internal air baffle has the backstop being adapted with spacing preiection Portion, spacing preiection with stopper section is spacing contacts, moved in a second direction with limiting internal air baffle, wherein, first direction and second Direction is linearly opposite.

Further, the first Access Division is multiple that length direction of multiple first Access Divisions along outer wind deflector is arranged at intervals.

Further, the length direction of the first Access Division and spacing preiection along outer wind deflector is arranged at intervals.

Further, stopper section has the avoidance position for being used for avoiding spacing preiection and stopped for what is abutted with spacing preiection Gear is put, and has free gap between at least part and internal air baffle of stopper section and outer wind deflector, so that stopper section is from limit Position projection moves to when passing through and avoids position, or stopper section is being moved to stop dog position after spacing preiection.

Further, when stopper section moves to stop dog position, spacing preiection and the first Access Division be locked on stopper section and Between second Access Division, or stopper section and the second Access Division are locked between spacing preiection and the first Access Division.

Further, stopper section has a hook body segment, and hook body segment has a linkage section and backstop section, the first end of linkage section with it is interior Wind deflector is connected, and the second end of linkage section is connected with backstop section, and backstop section extends towards internal air baffle, backstop section and spacing preiection Spacing contact.

Further, the second Access Division has the first linkage section and the second linkage section, the first end of the first linkage section with it is interior Wind deflector is connected, and the second end of the first linkage section is connected with the second linkage section, the first linkage section, the second linkage section and internal air baffle The first buckling groove is surrounded, the first Access Division is connected in the first buckling groove.

Further, the first Access Division has the 3rd linkage section and the 4th linkage section, the first end of the 3rd linkage section with it is outer Wind deflector is connected, and the second end of the 3rd linkage section is connected with the 4th linkage section, the 3rd linkage section, the 4th linkage section and outer wind deflector The second buckling groove is surrounded, the second Access Division is connected in the second buckling groove.

Further, the second Access Division is multiple that length direction of multiple second Access Divisions along internal air baffle is arranged at intervals, First Access Division to be multiple, each second Access Division respectively with corresponding first Access Division phase clamping.

According to another aspect of the present invention, there is provided a kind of air conditioner, including air deflection assemblies, air deflection assemblies are above-mentioned Air deflection assemblies.

The air deflection assemblies of the present invention overcome of the prior art lead by internal air baffle, outer wind deflector and heat generating member The problem of outer surface generation condensate of aerofoil.In specific installation process, heat generating member is directly installed on internal air baffle and led outside Between aerofoil.Heat can be produced in view of heat generating member, the surface temperature of internal air baffle and outer wind deflector can be maintained pre- Determine scope, so as to prevent the generation of internal air baffle and outer wind deflector outer surface condensate, solve air conditioner of the prior art The problem of generating condensate in the outer surface of wind deflector in running.

Brief description of the drawings

The Figure of description for forming the part of the application is used for providing a further understanding of the present invention, and of the invention shows Meaning property embodiment and its illustrate be used for explain the present invention, do not form inappropriate limitation of the present invention.In the accompanying drawings：

Fig. 1 shows the decomposition texture schematic diagram of the embodiment of the air deflection assemblies according to the present invention；

Fig. 2 shows outer wind deflector and the heat generating member attachment structure schematic diagram of the air deflection assemblies according to the present invention；

Fig. 3 shows the structural representation of the internal air baffle of the air deflection assemblies according to the present invention；

Fig. 4 shows the structural representation at first visual angle of the air deflection assemblies according to the present invention；

Fig. 5 shows the partial enlargement structural representation at the A of the air deflection assemblies in Fig. 4；

Fig. 6 shows the structural representation at second visual angle of the air deflection assemblies according to the present invention；And

Fig. 7 shows the partial enlargement structural representation at the B of the air deflection assemblies in Fig. 6.

Wherein, above-mentioned accompanying drawing marks including the following drawings：

10th, internal air baffle；11st, the second Access Division；111st, the first linkage section；112nd, the second linkage section；12nd, stopper section； 121st, linkage section；122nd, backstop section；20th, outer wind deflector；21st, the first buckle；22nd, the first Access Division；221st, the 3rd linkage section； 222nd, the 4th linkage section；23rd, spacing preiection；30th, heat generating member.

Embodiment

It should be noted that in the case where not conflicting, the feature in embodiment and embodiment in the application can phase Mutually combination.Describe the present invention in detail below with reference to the accompanying drawings and in conjunction with the embodiments.

The invention provides a kind of air deflection assemblies, refer to Fig. 1 to Fig. 7, and air deflection assemblies include the He of internal air baffle 10 The outer wind deflector 20 in the outside of internal air baffle 10 is arranged on, air deflection assemblies also include：Heat generating member 30, heat generating member 30 are arranged on interior lead Between aerofoil 10 and outer wind deflector 20.

The air deflection assemblies of the present invention overcome prior art by internal air baffle 10, outer wind deflector 20 and heat generating member 30 In wind deflector outer surface generation condensate the problem of.In specific installation process, heat generating member 30 is mounted directly in interior wind-guiding Between plate 10 and outer wind deflector 20.Heat can be produced in view of heat generating member 30, can be by internal air baffle 10 and outer wind deflector 20 Surface temperature maintain preset range, so as to prevent the generation of internal air baffle 10 and the outer surface condensate of outer wind deflector 20, solution Determine the problem of generating condensate in the outer surface of wind deflector in air conditioner running of the prior art.

In the present embodiment, internal air baffle 10 is relative towards the outer wall that the side of outer wind deflector 20 is internal air baffle 10 Opposite side is the inwall of internal air baffle 10, and correspondingly, outer wind deflector 20 is towards the side of internal air baffle 10 for outer wind deflector 20 Inwall, relative opposite side are the outer wall of outer wind deflector 20.

In order to easily control the heating temp of heat generating member 30, it is preferable that heat generating member 30 is electric heating part.

In the present embodiment, electric heating part passes through programme-control, electric heating part heating so that internal air baffle 10 and outer wind-guiding The temperature control of the outer surface of plate 20 is between 20-25 degree.Pass through the heating of electric heating part so that internal air baffle 10 and outer wind-guiding The temperature of the outer surface of plate 20 differs small with the gas flow temperature of external environment, thus will not be on the outer surface of air deflection assemblies There is the generation of condensate.

In use, the connector of electric heating part is on the mainboard of interior machine electric appliance box, the controllable electricity of mainboard program Whether heating member works.When electric heating part works, indicator lamp is bright, and when electric heating part does not work, indicator lamp does not work.

Preferably, heat generating member 30 is heating wire.

Alternatively, heat generating member 30 is electrothermal tube.

In order to ensure that heat generating member 30 produces the uniformity of heat, heat generating member 30 is U-shape structure.

In the present embodiment, heat generating member 30 is U-shape structure, so as to which temperature caused by heat generating member 30 is equably dissipated Onto internal air baffle 10 and outer wind deflector 20.

Preferably, heat generating member 30 is arranged on the outer wall of internal air baffle 10 and/or on the inwall of outer wind deflector 20.

In order to which easily heat generating member 30 is arranged on outer wind deflector 20, as shown in Fig. 2 being provided with outer wind deflector 20 One buckle 21, heat generating member 30 are fastened in the first buckle 21.By being provided with the first buckle 21 on outer wind deflector 20, pass through Heat generating member 30 is stably fastened on outer wind deflector 20 by one buckle 21.

Preferably, the first buckle 21 is multiple that multiple first buckles 21 are arranged at intervals.

Preferably, multiple first buckles 21 are set in a row.

It is U-shape structure in view of heat generating member 30, as shown in Fig. 2 the first buckle 21 is two rows, two ranked first opening for buckle 21 Mouth is oppositely arranged.

Heat generating member 30 is U-shape structure in the present embodiment, and correspondingly, the first buckle 21 is two rows, respectively ranked first buckle 21 It is fastened on respectively correspondingly on heat generating member 30.

For the connected mode of internal air baffle 10 and outer wind deflector 20, internal air baffle 10 and the clamping of outer wind deflector 20, bonding Or connected by fastener.

In order to realize the connection of internal air baffle 10 and outer wind deflector 20, as shown in Figures 2 and 3, on outer wind deflector 20 The first Access Division 22 is provided with, is provided with the second Access Division 11 being adapted with the first Access Division 22 on internal air baffle 10, first The clamping of 22 and second Access Division of Access Division 11, moved along the first direction with limiting internal air baffle 10.

By by the first Access Division 22 on outer wind deflector 20 and the clamping of the second Access Division 11 on internal air baffle 10, so as to Internal air baffle 10 can be limited to move along the first direction.

In order to ensure that internal air baffle 10 and outer wind deflector 20 do not relatively move, set on outer wind deflector 20 limited Position projection 23, internal air baffle 10 has the stopper section 12 being adapted with spacing preiection 23, and spacing preiection 23 and stopper section 12 are spacing Contact, is moved in a second direction with limiting internal air baffle 10, wherein, first direction and second direction are linearly opposite.

In the present embodiment, by the way that the spacing preiection 23 on outer wind deflector 20 and the stopper section 12 on internal air baffle 10 are limited Position contact, is moved in a second direction so as to limit internal air baffle 10.At the same time, the first Access Division on outer wind deflector 20 22 move along the first direction with the clamping of the second Access Division 11 on internal air baffle 10, limitation internal air baffle 10.It is it is achieved thereby that interior Wind deflector 10 and outer wind deflector 20 are stably connected with.

Preferably, the first Access Division 22 is multiple, length direction interval of multiple first Access Divisions 22 along outer wind deflector 20 Set.

Preferably, the length direction of the first Access Division 22 and spacing preiection 23 along outer wind deflector 20 is arranged at intervals.

In order to realize that spacing preiection 23 contacts with the spacing of stopper section 12, stopper section 12, which has, to be used to avoid limit convex Play 23 avoidance position and the stop dog position for being abutted with spacing preiection 23, at least part and the internal air baffle 10 of stopper section 12 There is free gap between outer wind deflector 20, so that stopper section 12 moves to when passing through from spacing preiection 23 avoids position, Or stopper section 12 is set to move to stop dog position after spacing preiection 23.

In the present embodiment, stopper section 12 has the avoidance position for being used for avoiding spacing preiection 23 and is used for and spacing preiection 23 stop dog positions abutted.By the way that work will be respectively provided between at least part of stopper section 12 and internal air baffle 10 and outer wind deflector 20 Dynamic gap, so as to so that stopper section 12 is avoiding position by being moved to during spacing preiection 23, or pass through stopper section 12 Stop dog position is moved to after spacing preiection 23.

In the present embodiment, in internal air baffle 10 and the installation process of outer wind deflector 20, stopper section 12 at least partially in limit Bent under the pressing of position projection 23 to away from the side of outer wind deflector 20.Process, the position where stopper section 12 are pressed whole Position is as avoided, does not interfere with position of the stopper section 12 by spacing preiection 23.When spacing preiection 23 stops pressing stopper section After 12, as shown in Figure 6 and Figure 7, stopper section 12 abuts with spacing preiection 23, and now, stopper section 12 is in stop dog position.

Preferably, when stopper section 12 moves to stop dog position, the Access Division 22 of spacing preiection 23 and first is locked on backstop Between the Access Division 11 of portion 12 and second, or the Access Division 11 of stopper section 12 and second is locked on the Access Division 22 of spacing preiection 23 and first Between.

In the present embodiment, contacted for stopper section 12 with the spacing of spacing preiection 23, when stopper section 12 is located at limit convex When playing 23 left side, spacing preiection 23 is located at the right side of stopper section 12, and now, the second Access Division 11 is located at the first Access Division 22 Right side.In specific installation process, by promoting internal air baffle 10 to make the second Access Division 11 along the length direction of outer wind deflector 20 Snap fit onto in the first Access Division 22, i.e., the Access Division 22 of spacing preiection 23 and first be locked on the Access Division 11 of stopper section 12 and second it Between.It is elastic component in view of stopper section 12, in the presence of spacing preiection 23, stopper section 12 is along away from the outer lateral bending of wind deflector 20 1 Folding.After stopper section 12 is by spacing preiection 23, the bending part of stopper section 12 rebounds, and stopper section 12 and spacing preiection 23 are spacing Contact.The Access Division 22 of spacing preiection 23 and first is spacing between the Access Division 11 of stopper section 12 and second, so that interior wind-guiding Plate 10 is realized with outer wind deflector 20 and is stably connected with.

Correspondingly, when stopper section 12 is located at the right side of spacing preiection 23, spacing preiection 23 is located at the left side of stopper section 12. Now, the second Access Division 11 is located at the left side of the first Access Division 22, and the Access Division 11 of stopper section 12 and second is locked on spacing preiection 23 and first between Access Division 22.Specific installation process is consistent with above-mentioned installation process, after installation, spacing preiection 23 It is spacing between the Access Division 11 of stopper section 12 and second with the first Access Division 22, so that internal air baffle 10 and outer wind deflector 20 Realize and be stably connected with.

For the concrete structure of stopper section 12, as shown in fig. 7, stopper section 12 has hook body segment, hook body segment has linkage section 121 and backstop section 122, the first end of linkage section 121 be connected with internal air baffle 10, the second end of linkage section 121 and backstop section 122 Connection, backstop section 122 extends towards internal air baffle 10, backstop section 122 with spacing preiection 23 is spacing contacts.

For the concrete structure of the second Access Division 11, as shown in figure 5, the second Access Division 11 has the He of the first linkage section 111 Second linkage section 112, the first end of the first linkage section 111 are connected with internal air baffle 10, the second end of the first linkage section 111 and the Two linkage sections 112 connect, and the first linkage section 111, the second linkage section 112 and internal air baffle 10 surround the first buckling groove, the first card Socket part 22 is connected in the first buckling groove.

Correspondingly, as shown in figure 5, the first Access Division 22 has the 3rd linkage section 221 and the 4th linkage section 222, the 3rd connects The first end for connecing section 221 is connected with outer wind deflector 20, and the second end of the 3rd linkage section 221 is connected with the 4th linkage section 222, and the 3rd Linkage section 221, the 4th linkage section 222 and outer wind deflector 20 surround the second buckling groove, and the second Access Division 11 is connected to the second clamping In groove.

In order to ensure being stably connected with for internal air baffle 10 and outer wind deflector 20, the second Access Division 11 be it is multiple, it is multiple Length direction of second Access Division 11 along internal air baffle 10 is arranged at intervals, and the first Access Division 22 is multiple, each second Access Division 11 respectively with the corresponding phase clamping of first Access Division 22.

Present invention also offers a kind of air conditioner, including air deflection assemblies, air deflection assemblies are above-mentioned air deflection assemblies.

As can be seen from the above description, the above embodiments of the present invention realize following technique effect：

The air deflection assemblies of the present invention overcome prior art by internal air baffle 10, outer wind deflector 20 and heat generating member 30 In wind deflector outer surface generation condensate the problem of.In specific installation process, heat generating member 30 is mounted directly in interior wind-guiding Between plate 10 and outer wind deflector 20.Heat can be produced in view of heat generating member 30, can be by internal air baffle 10 and outer wind deflector 20 Surface temperature maintain preset range, so as to prevent the generation of internal air baffle 10 and the outer surface condensate of outer wind deflector 20, solution Determine the problem of generating condensate in the outer surface of wind deflector in air conditioner running of the prior art.

The preferred embodiments of the present invention are the foregoing is only, are not intended to limit the invention, for the skill of this area For art personnel, the present invention can have various modifications and variations.Within the spirit and principles of the invention, that is made any repaiies Change, equivalent substitution, improvement etc., should be included in the scope of the protection.

Claims (21)

1. a kind of air deflection assemblies, including internal air baffle (10) and the outer wind deflector that is arranged on the outside of the internal air baffle (10) (20), it is characterised in that the air deflection assemblies also include：

Heat generating member (30), the heat generating member (30) are arranged between the internal air baffle (10) and the outer wind deflector (20).

2. air deflection assemblies according to claim 1, it is characterised in that the heat generating member (30) is electric heating part.

3. air deflection assemblies according to claim 1, it is characterised in that the heat generating member (30) is heating wire.

4. air deflection assemblies according to claim 1, it is characterised in that the heat generating member (30) is U-shape structure.

5. air deflection assemblies according to claim 1, it is characterised in that the heat generating member (30) is arranged on the interior wind-guiding On the outer wall of plate (10) and/or on the inwall of the outer wind deflector (20).

6. air deflection assemblies according to claim 1, it is characterised in that be provided with the first card on the outer wind deflector (20) Detain (21), the heat generating member (30) is fastened in first buckle (21).

7. air deflection assemblies according to claim 6, it is characterised in that first buckle (21) is multiple, Duo Gesuo State the first buckle (21) interval setting.

8. air deflection assemblies according to claim 6, it is characterised in that multiple first buckles (21) set in a row.

9. air deflection assemblies according to claim 6, it is characterised in that first buckle (21) is two rows, two row institutes The opening for stating the first buckle (21) is oppositely arranged.

10. air deflection assemblies according to claim 1, it is characterised in that the internal air baffle (10) and the outer wind-guiding Plate (20) clamping, bonding is connected by fastener.

11. air deflection assemblies according to claim 1, it is characterised in that be provided with first on the outer wind deflector (20) Access Division (22), the second Access Division being adapted with first Access Division (22) is provided with the internal air baffle (10) (11), first Access Division (22) and the second Access Division (11) clamping, to limit the internal air baffle (10) along first Move in direction.

12. air deflection assemblies according to claim 11, it is characterised in that limited location is set on the outer wind deflector (20) Raised (23), the internal air baffle (10) have the stopper section (12) being adapted with the spacing preiection (23), the limit convex (23) and the stopper section (12) spacing contact are played, is moved in a second direction with limiting the internal air baffle (10), wherein, it is described First direction and the second direction are linearly opposite.

13. air deflection assemblies according to claim 12, it is characterised in that first Access Division (22) is more to be multiple Length direction of individual first Access Division (22) along the outer wind deflector (20) is arranged at intervals.

14. air deflection assemblies according to claim 12, it is characterised in that first Access Division (22) and described spacing The length direction of raised (23) along the outer wind deflector (20) is arranged at intervals.

15. air deflection assemblies according to claim 12, it is characterised in that the stopper section (12), which has, to be used to avoid institute State the avoidance position of spacing preiection (23) and the stop dog position for being abutted with the spacing preiection (23), the stopper section (12) At least part with having free gap between the internal air baffle (10) and the outer wind deflector (20) so that the stopper section (12) the avoidance position is moved to when passing through from the spacing preiection (23), or makes the stopper section (12) by institute The stop dog position is moved to after stating spacing preiection (23).

16. air deflection assemblies according to claim 15, it is characterised in that when the stopper section (12) move to described stop When gear is put, the spacing preiection (23) and first Access Division (22) are locked on the stopper section (12) and second card Between socket part (11), or the stopper section (12) and second Access Division (11) are locked on the spacing preiection (23) and described Between first Access Division (22).

17. air deflection assemblies according to claim 12, it is characterised in that the stopper section (12) has hook body segment, institute Stating hook body segment has linkage section (121) and backstop section (122), first end and the internal air baffle of the linkage section (121) (10) connect, the second end of the linkage section (121) is connected with the backstop section (122), and the backstop section (122) is described in Internal air baffle (10) extends, the backstop section (122) and the spacing preiection (23) spacing contact.

18. air deflection assemblies according to claim 11, it is characterised in that second Access Division (11) has first to connect Section (111) and the second linkage section (112) are connect, the first end of first linkage section (111) is connected with the internal air baffle (10), Second end of first linkage section (111) is connected with second linkage section (112), first linkage section (111), described Second linkage section (112) and the internal air baffle (10) surround the first buckling groove, and first Access Division (22) is connected to described In first buckling groove.

19. air deflection assemblies according to claim 11, it is characterised in that first Access Division (22) has the 3rd to connect Section (221) and the 4th linkage section (222) are connect, the first end of the 3rd linkage section (221) is connected with the outer wind deflector (20), Second end of the 3rd linkage section (221) is connected with the 4th linkage section (222), the 3rd linkage section (221), described 4th linkage section (222) and the outer wind deflector (20) surround the second buckling groove, and second Access Division (11) is connected to described In second buckling groove.

20. air deflection assemblies according to claim 11, it is characterised in that second Access Division (11) is more to be multiple Length direction of individual second Access Division (11) along the internal air baffle (10) is arranged at intervals, and first Access Division (22) is It is multiple, each second Access Division (11) respectively with corresponding first Access Division (22) the phase clamping.

21. a kind of air conditioner, including air deflection assemblies, it is characterised in that the air deflection assemblies are to appoint in claim 1 to 20 Air deflection assemblies described in one.