CN204438464U - Air guide structure and air-conditioner - Google Patents

Abstract

The utility model discloses a kind of air guide structure and air-conditioner, wherein air guide structure is for wind-guiding during air conditioner air-out, the wind deflector that air guide structure comprises housing and is connected with housing into rotation; Housing comprises the first installing plate and the second installing plate that are positioned at opposite side, forms the air outlet being used for air-out between the first installing plate and the second installing plate; Wind deflector is installed in air outlet, wind deflector comprises relative first end and the second end, first end and the first installing plate are rotationally connected, second end and the second installing plate are rotationally connected, air guide structure also comprises is located at antihunting device between wind deflector and the first installing plate, one end of antihunting device is connected with the first installing plate, and the other end of antihunting device supports the first end of wind deflector.The utility model has avoids wind deflector tremble and produce the effect of noise.

Description

Air guide structure and air-conditioner

Technical field

The utility model relates to household appliance technical field, particularly relates to air guide structure and air-conditioner.

Background technology

Existing air-conditioner comprises the housing being provided with air outlet, is installed in the wind deflector in air outlet; Wind deflector is rotated by the installation shaft that it protrudes relative to both sides and is plugged in two axis holes of housing.The frictional force location that wind deflector is produced by the interference fit between installation shaft and axis hole, thus guide wind to flow out towards preset direction.But can produce shake in air-conditioner running, thus conduct to wind deflector, the air-flow of air outlet blowout also can make wind deflector shake to wind deflector generation effect, and then will produce abnormal sound when wind deflector generation jitter amplitude is larger.

Utility model content

Main purpose of the present utility model is to provide a kind of air guide structure, avoids wind deflector shake at work and produce abnormal sound.

For achieving the above object, a kind of air guide structure that the utility model provides, for wind-guiding during air conditioner air-out, the wind deflector that described air guide structure comprises housing and is connected with housing into rotation; Described housing comprises the first installing plate and the second installing plate that are positioned at opposite side, forms the air outlet being used for air-out between described first installing plate and the second installing plate; Described wind deflector is installed in described air outlet, described wind deflector comprises relative first end and the second end, described first end and described first installing plate are rotationally connected, described second end and described second installing plate are rotationally connected, it is characterized in that, described air guide structure also comprises is located at antihunting device between described wind deflector and described first installing plate, and one end of described antihunting device is connected with described first installing plate, and the other end of described antihunting device supports the first end of described wind deflector.

Preferably, described first installing plate comprises the length direction perpendicular to air-out direction, and the quantity of described wind deflector is multiple, and described multiple wind deflector is arranged uniformly along the length direction interval of described first installing plate.

Preferably, each wind deflector comprises wind-guiding body and is connected with described wind-guiding body and the universal driving shaft extended towards described first installing plate, and antihunting device comprises the connecting rod that is connected with multiple universal driving shafts of described multiple wind deflector and is connected with described first installing plate and supports the shell fragment of described connecting rod.

Preferably, connecting rod comprises towards the first surface at wind deflector center and relative with described first surface second; Described first surface is recessed to form multiple concave surface to described second face, and the center of each concave surface offers the slot of through described second; The universal driving shaft of described wind deflector comprises head and is connected to the bar portion between described head and described wind-guiding body, and the outline of described head is greater than the openings of sizes of described slot and is stuck in outside described slot, and described bar portion inserts in described slot.

Preferably, described concave surface also offers tear-off opening, and described tear-off opening is communicated with described slot and is extended to surrounding by the center of described slot, described concave surface with described tear-off opening for boundary is divided into many lobes.

Preferably, described connecting rod is convexly equipped with rib on the face of described first installing plate, and described connecting rod is supported mutually by described rib and described shell fragment.

Preferably, described first installing plate offers two hole clippings, and described two hole clippings are opened in the relative both sides of the position of corresponding described rib respectively; Described shell fragment comprises two holding divisions, substrate and multiple protuberance, two holding divisions respectively with the clamping one by one of described two hole clippings, described substrate is connected between described two holding divisions, described multiple protuberance is connected with described substrate one and extends towards described connecting rod, described multiple protuberance is arranged evenly and at intervals at the length direction of described first installing plate, forms the stopper slot supported with described rib between two adjacent protuberances.

Preferably, described multiple protuberance has elasticity and more and more less on the direction of connecting rod, described protuberance has the root be connected with described substrate, and the root of two adjacent protuberances is connected, and the described stopper slot formed between two adjacent two protuberances is in the shape of the letter V.

Preferably, described shell fragment also comprises and being connected and two lock plates extended towards described connecting rod with described substrate one; Described two lock plates lay respectively at head end and the tail end of multiple protuberance along the orientation of multiple protuberance, two position-arresting grooves are formed between described two lock plates and protuberance adjacent separately, when described rib moves to position-arresting groove described in, can only return towards the direction of another position-arresting groove.

Preferably, two hole clippings of described first installing plate respectively comprise a sipes position and a narrow groove location, the narrow groove location of a described hole clipping is communicated with the sipes position of this hole clipping and extends towards another hole clipping, and the groove width at described sipes position is greater than the groove width of described narrow groove location; The each Internal baffle of two holding divisions of described shell fragment, outer baffle and the connecting plate be connected between described outer baffle and Internal baffle, described outer baffle is connected with described substrate and can produces elastic deformation; The outline of described outer baffle and Internal baffle is greater than the groove width of described narrow groove location and is less than the groove width at described sipes position; Described outer baffle is blocked in a side of described first installing plate when described shell fragment and the first installing plate are fixed, described Internal baffle is blocked in the another side of described first installing plate when described shell fragment and the first installing plate are fixed, described connecting plate inserts in described narrow groove location when described shell fragment and the first installing plate are fixed.

Preferably, the Internal baffle of described shell fragment is positioned at the side of described first installing plate towards described air outlet, described outer baffle is positioned at the side of described first installing plate described air outlet dorsad, and described outer baffle is the arc of wind deflector dorsad, described first installing plate is provided with resigning hole in the position of the substrate of the described shell fragment of correspondence, multiple protuberances on described substrate are through in described resigning hole, and described multiple protuberance protrudes out to the side of described first installing plate towards described air outlet.

In addition, the utility model additionally provides a kind of air-conditioner, it is characterized in that, described air-conditioner comprises above-mentioned air guide structure.

Air guide structure provided by the utility model and air-conditioner, in order to avoid wind deflector air blow and air-conditioner complete machine operational vibration effect under produce and tremble, this air guide structure also comprises the antihunting device be located between the wind-guiding body of wind deflector and the first installing plate, one end of described antihunting device is connected with the first installing plate, and the other end of described antihunting device supports the first end of described wind deflector.Because described wind deflector supported by antihunting device, and limit the vibration of wind deflector, thus reach and avoid wind deflector tremble and produce the effect of noise.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model air guide structure one embodiment;

Fig. 2 is the enlarged diagram of a-quadrant in Fig. 1;

Fig. 3 is the enlarged diagram in B region in Fig. 2;

The structural representation of housing under a visual angle that Fig. 4 is the air guide structure shown in Fig. 1;

Fig. 5 is the enlarged diagram in C region in Fig. 4;

The structural representation of housing under another visual angle that Fig. 6 is the air guide structure shown in Fig. 1;

The assembling schematic diagram that Fig. 7 is the housing in the air guide structure shown in Fig. 1 and shell fragment;

Fig. 8 is the structural representation of the shell fragment shown in Fig. 7;

The assembling schematic diagram that Fig. 9 is the multiple wind deflector in the air guide structure shown in Fig. 1 and connecting rod;

Figure 10 is the structural representation of the wind deflector shown in Fig. 9;

Figure 11 is the structural representation of the connecting rod shown in Fig. 9 under a visual angle;

Figure 12 is the structural representation of the connecting rod shown in Fig. 9 under another visual angle.

The realization of the utility model object, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Detailed description of the invention

Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

The utility model provides a kind of air guide structure for wind-guiding during air conditioner air-out.

Please refer to Fig. 1, in one embodiment, multiple wind deflectors 2 that this air guide structure comprises housing 1 and is connected with described housing 1.

In the present embodiment, this housing 1 is for package AC plant, the compressor of package AC plant and air-conditioner, condenser, evaporimeter, throttle part and relevant pipe arrangement device, all parts are all in a casing, and the housing 1 that the present embodiment provides is for forming this casing.Air outlet 111 is formed on above-mentioned housing 1 also by one jiao of setting at four angles of this housing 1.

Incorporated by reference to referring to Fig. 2 and Fig. 4, housing 1 comprises the panel 11 towards air side, and air outlet 111 is opened on this panel 11.Housing 1 also comprises multiple installing plate 12, and described multiple installing plate 12 and described panel 11 form the edge conjunction of described air outlet 111, and described air side extends dorsad, and air outlet 111 extends between multiple installing plate 12.In the present embodiment, air outlet 111 is rectangular and have four edges edge, then the quantity of installing plate 12 is four, and four installing plates 12 form a rectangle frame.Incorporated by reference to referring to Fig. 6, four installing plates 12 of described housing 1 comprise the first relative installing plate 121 and the second installing plate 122, first installing plate 121 is provided with multiple first installing hole 1211; Second installing plate 122 is provided with and described multiple first installing hole 1211 multiple second installing hole 1221 one to one.The first corresponding installing hole 1211 and the second installing hole 1221 are for being coaxially set.

Incorporated by reference to referring to Fig. 9 and Figure 10, described multiple wind deflector 2 is installed in described air outlet 111.Each wind deflector 2 comprises first installation shaft 221 and second installation shaft 222 of rotating grafting respectively with the first installing hole 1211 and the second installing hole 1221 and coordinating, and is connected to the wind-guiding body 21 between described first installation shaft 221 and described second installation shaft 222.Particularly, described first installing plate 121 comprises respectively towards the length direction of two adjacent installing plates 12, and described multiple wind deflector 2 is arranged uniformly along the length direction interval of described first installing plate 121.The length direction of described first installing plate 121 is perpendicular to air-out direction.

First installation shaft 221 and the second installation shaft 222 are coaxially arranged, each wind deflector 2 can around the first installation shaft 221 and the common axis rotation of the second installation shaft 222 under the active force of user, thus user can adjust the blow-off direction of air by adjustment wind deflector 2 deflection angle.

Because wind deflector 2 is mounted to housing 1 pivotly by the first installation shaft 221 and the second installation shaft 222, then wind deflector 2 is not completely fixed, can be used for user, active force is applied to wind deflector 2, make wind deflector 2 around the first installation shaft 221 and the common axis rotation of the second installation shaft 222, thus reach the effect of the blow-off direction of adjustment air.But, air blow and air-conditioner complete machine operational vibration effect under, generation is trembled by wind deflector 2, thus produce noise.

Incorporated by reference to referring to Fig. 3, in order to avoid wind deflector 2 air blow and air-conditioner complete machine operational vibration effect under produce and tremble, in the present embodiment, this air guide structure also comprises the antihunting device be located between the wind-guiding body 21 of wind deflector 2 and the first installing plate 121, one end of described antihunting device is connected with the first installing plate 121, and the other end of described antihunting device supports wind-guiding body 21 one end towards the first installing plate 121 of described wind deflector 2.Because described wind deflector 2 supported by antihunting device, and limit the vibration of wind deflector 2, thus reach and avoid wind deflector 2 tremble and produce the effect of noise.

In the present embodiment, employing be that the two ends of wind deflector 2 are provided with rotating shaft, housing 1 is provided with the installing hole coordinated with above-mentioned rotating shaft and is rotationally connected with on housing 1 to make wind deflector 2; In other embodiments, can also be that the two ends of wind deflector 2 are installing hole, housing 1 be provided with corresponding rotating shaft and be rotationally connected with on housing 1 to make wind deflector 2.Namely wind deflector 2 comprises relative first end and the second end, and described first end and described first installing plate 121 are rotationally connected, and described second end and described second installing plate 122 are rotationally connected.

Please again referring to Fig. 9, in the present embodiment, antihunting device also has the effect that multiple wind deflector 2 is linked.Particularly, each wind deflector 2 also comprises and being connected and the universal driving shaft 23 extended towards described first installing plate 121 with described wind-guiding body 21, and preferably, this universal driving shaft 23 is connected to the side of described wind-guiding body 21 towards described first installing plate 121.Antihunting device comprises with the connecting rod 3 of multiple universal driving shafts 23 grafting of multiple wind deflector 2 and is connected with described first installing plate 121 and supports the shell fragment 4 of described connecting rod 3.The present embodiment, by a connecting rod 3 and universal driving shaft 23 grafting of multiple wind deflector 2, makes the plurality of wind deflector 2 have the effect of interlock.And support connecting rod 3 by shell fragment 4, be positioned at the wind-guiding body 21 of universal driving shaft 23 root to make connecting rod 3 support, thus reach and support described wind deflector 2 and produce anti seismic efficiency.

Incorporated by reference to referring to Figure 11 and Figure 12, in the present embodiment, described connecting rod 3 offers the multiple slots 311 with the grafting respectively of the universal driving shaft 23 of multiple wind deflector 2.Preferably, connecting rod 3 is strip, and comprise towards the first surface 32 at wind deflector 2 center and the second relative with first surface 32 and parallel with described first surface 32 face 33, wherein first surface 32 supports the wind-guiding body 21 being positioned at universal driving shaft 23 root.First surface 32 is recessed to form multiple concave surface 321 to described second face 33, and described multiple slot 311 is formed at the center of described multiple concave surface 321 and through described second face 33 respectively.Each concave surface 321 also offers and is communicated with and the tear-off opening 312 extended to surrounding by the center of this slot 311 with the slot 311 on it, described concave surface 321 is divided into many lobes by described tear-off opening 312, to make described concave surface 321, there is elasticity, thus the openings of sizes of slot 311 can become greatly when concave surface 321 elastic deformation, restore when concave surface 321 elasticity is recovered.Accordingly, the universal driving shaft 23 of wind deflector 2 comprises head 232 and is connected to the bar portion 231 between described head 232 and described wind-guiding body 21, the outline of described head 232 is greater than the openings of sizes of described slot 311 and is stuck in outside described slot 311, and described bar portion 231 inserts in described slot 311.

When seated, the head 232 of the universal driving shaft 23 of wind deflector 2, under the guiding of described concave surface 321, inserts slot 311 from the first surface 32 of connecting rod 3.During insertion, the concave surface 321 forming described slot 311 is strutted by described head 232; When head 232 is inserted through described slot 311, the bar portion 231 of described universal driving shaft 23 is placed in described slot 311, then head 232 is stuck in the second side, face 33 outside described slot 311 by recovery elasticity by slot 311.

The concave surface 321 forming described slot 311 in the present embodiment is divided into many lobes by described tear-off opening 312, and preferably, tear-off opening 312 comprises four, and concave surface 321 is divided into pintongs.Owing to being divided into the remitted its fury of the concave surface 321 of pintongs, concave surface 321 is made to be easy to elastic deformation, and then the openings of sizes of the slot 311 to be formed by concave surface 321 can change with the elastic deformation of concave surface 321, thus reach the effect being easy to be inserted by the head 232 of universal driving shaft 23 in described slot 311.

Preferably, the concave surface 321 forming described slot 311 is dome shape.Thus when universal driving shaft 23 inserts described slot 311, spherically the concave surface 321 of shape can reduce the friction between the side face of universal driving shaft 23, thus reduce the wearing and tearing to universal driving shaft 23.Particularly, described second face 33 is provided with convex surface 331 in the position male of the described concave surface 321 of correspondence.

In the present embodiment, the second face 33 of described connecting rod 3 is convexly equipped with rib 34, and described connecting rod 3 is supported mutually by described rib 34 and described shell fragment 4.Particularly, described rib 34 extends along the direction perpendicular to described connecting rod 3 length; Described rib 34 is triangular in shape perpendicular to the cross section on its bearing of trend, and rib 34 diminishes gradually on its protrusion direction.

In the present embodiment, described shell fragment 4 and described first installing plate 121 flexible clamping.Please refer to Fig. 5, particularly, described first installing plate 121 offers the hole clipping 1212 for fixation spring tab 4 respectively in the both sides of correspondence described rib 34 position.Incorporated by reference to referring to Fig. 3, Fig. 7 and Fig. 8, described shell fragment 4 comprises two holding divisions 42, substrate 41 and multiple protuberance 43.Two holding divisions 42 are respectively installed in a hole clipping 1212, and substrate 41 is connected between described two holding divisions 42, and multiple protuberance 43 is connected with described substrate 41 one and extends towards described connecting rod 3.Multiple protuberance 43 is arranged evenly and at intervals on the length direction of described first installing plate 121, undulate.The stopper slot 44 supported with described rib 34 is formed between two adjacent protuberances 43.Preferably, multiple protuberance 43 has elasticity, and the sectional area on the direction towards connecting rod 3 is more and more less, the root of two adjacent protuberances 43 is connected the stopper slot 44 forming V-shaped, then rib 34 is resisted against in the stopper slot 44 of the V-shaped that two protuberances 43 are formed.In other embodiments, rib 34 also can be resisted against on substrate 41, and is limited between two adjacent protuberances 43.

The present embodiment by being formed with multiple stopper slot 44 on shell fragment 4, thus has pause and transition in rhythm or melody sense when rib 34 is moved between two adjacent stopper slots 44, improves the operation sense of user; And improve the active force threshold value of rib 34 movement between two adjacent stopper slots 44, thus avoid rib 34 under the gravity of wind deflector 2, air flowing put on the synergy of the power of wind deflector 2 and the vibration of air-conditioning work, produce and shake the effect of movement relative to substrate 41.Certainly, in other embodiments, the second face 33 of connecting rod 3 also can be supported by protuberance 43.

Further, in order to set the limit shift position of a rib 34, in the present embodiment, described shell fragment 4 also comprises and to be connected with described substrate 41 one and two lock plate 45, two lock plates 45 extended towards described connecting rod 3 lay respectively at head end and the tail end of multiple protuberance 43 along the orientation of multiple protuberance 43.Two lock plates 45 respectively and form two position-arresting grooves 46 between protuberance 43 adjacent separately, when rib 34 moves to a position-arresting groove 46, can only return towards another position-arresting groove 46.Particularly, in the present embodiment, two lock plates 45 are the upright plate extended perpendicular to substrate 41, thus make rib 34 cannot cross lock plate 45 under ordinary loading conditions.

In the present embodiment, two hole clippings 1212 of the first installing plate 121 respectively comprise a sipes position 1213 and dorsad another hole clipping 1212 extend and the narrow groove location 1214 be communicated with described sipes position 1213; The groove width at described sipes position is greater than the groove width of described narrow groove location.Particularly, described hole clipping 1212 is overall T-shaped, and two hole clippings 1212 are arranged at the length direction interval of described first installing plate 121.

The connecting plate 422 that two holding divisions 42 of described shell fragment 4 respectively comprise Internal baffle 421, outer baffle 423 and are connected between described Internal baffle 421 and outer baffle 423.Wherein, described outer baffle 423 is connected with substrate 41 and can elastic deformation.The outline of described outer baffle 423 and Internal baffle 421 is greater than the groove width of described narrow groove location 1214 and is less than the groove width at described sipes position 1213; Described outer baffle 423 is blocked in a side of described first installing plate 121 when described shell fragment 4 and the first installing plate 121 are fixed, described Internal baffle 421 is blocked in the another side of described first installing plate 121 when described shell fragment 4 and the first installing plate 121 are fixed, described connecting plate 422 inserts in described narrow groove location 1214 when described shell fragment 4 and the first installing plate 121 are fixed.

In the present embodiment, the outer baffle 423 of shell fragment 4 is the arc of wind deflector 2 dorsad, to produce larger amount of elastic deformation; Correspondingly, Internal baffle 421 is inserted by the side of the air outlet dorsad 111 of the first installing plate 121 and fixes in air outlet 111; Described first installing plate 121 is provided with resigning hole 1215 in the position of the substrate 41 of corresponding shell fragment 4, in the resigning hole 1215 that the multiple protuberances 43 on substrate 41 are through at.Namely the Internal baffle 421 of described shell fragment 4 is positioned at the side of described first installing plate 121 towards described air outlet 111, described outer baffle 423 is positioned at the side of described first installing plate 121 described air outlet 111 dorsad, and described multiple protuberance 43 protrudes out to the side of described first installing plate 121 towards described air outlet 111.

When holding division 42 is stuck in described hole clipping 1212, outer baffle 423 recovers elasticity and Internal baffle 421 and outer baffle 423 are blocked in the relative two sides of the first installing plate 121 respectively, and connecting plate 422 inserts in described narrow groove location 1214.When two outer baffles 423 in opposite directions contraction-like elastic deformation time, outer baffle 423 drives connecting plate 422 and Internal baffle 421 to move to sipes position 1213 from narrow groove location 1214; Now can depart from hole clipping 1212 by Internal baffle 421 leniently groove location 1213, to be dismantled from the first installing plate 121 by holding division 42; In like manner, holding division 42 is mounted in the process of the first installing plate 121, applies active force and make two outer baffles produce elastic deformation contraction-like in opposite directions in two outer baffles 423; When outer baffle 423 elastic deformation by Internal baffle 421 leniently groove location 1213 insert hole clipping 1212; When Internal baffle 421 leniently groove location 1213 insert hole clipping 1212, unload the power be applied on outer baffle 423, then outer baffle 423 will recover elasticity, thus drive Internal baffle 421 leniently groove location 1213 slide to narrow groove location 1214, so far holding division 42 has been mounted to the first installing plate 121.The shell fragment 4 that theres is provided of the present embodiment and the first installing plate 121 as from the foregoing, has the effect being convenient to mount and dismount.

The utility model also provides a kind of air-conditioner, and this air-conditioner comprises above-mentioned air guide structure disclosed in the utility model, and this air guide structure can refer to above-described embodiment, does not repeat them here.Naturally, the air-conditioner due to the present embodiment have employed the technical scheme of above-mentioned air guide structure, and therefore this air-conditioner has all beneficial effects of above-mentioned air guide structure.

These are only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model description and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (10)

1. an air guide structure, for wind-guiding during air conditioner air-out, the wind deflector that described air guide structure comprises housing and is connected with housing into rotation; Described housing comprises the first installing plate and the second installing plate that are positioned at opposite side, forms the air outlet being used for air-out between described first installing plate and the second installing plate; Described wind deflector is installed in described air outlet, described wind deflector comprises relative first end and the second end, described first end and described first installing plate are rotationally connected, described second end and described second installing plate are rotationally connected, it is characterized in that, described air guide structure also comprises is located at antihunting device between described wind deflector and described first installing plate, and one end of described antihunting device is connected with described first installing plate, and the other end of described antihunting device supports the first end of described wind deflector.

2. air guide structure as claimed in claim 1, it is characterized in that, the length direction of described first installing plate is perpendicular to air-out direction, and the quantity of described wind deflector is multiple, and described multiple wind deflector is arranged uniformly along the length direction interval of described first installing plate.

3. air guide structure as claimed in claim 2, it is characterized in that, each wind deflector comprises wind-guiding body and is connected with described wind-guiding body and the universal driving shaft extended towards described first installing plate, and antihunting device comprises with the connecting rod of multiple universal driving shaft grafting of described multiple wind deflector and is connected with described first installing plate and supports the shell fragment of described connecting rod.

4. air guide structure as claimed in claim 3, is characterized in that, connecting rod comprises towards the first surface at wind deflector center and relative with described first surface second; Described first surface is recessed to form multiple concave surface to described second face, and the center of each concave surface offers the slot of through described second; The universal driving shaft of described wind deflector comprises head and is connected to the bar portion between described head and described wind-guiding body, and the outline of described head is greater than the openings of sizes of described slot and is stuck in outside described slot, and described bar portion inserts in described slot.

5. air guide structure as claimed in claim 4, it is characterized in that, described concave surface also offers tear-off opening, and described tear-off opening is communicated with described slot and is extended to surrounding by the center of described slot, described concave surface with described tear-off opening for boundary is divided into many lobes.

6. air guide structure as claimed in claim 3, it is characterized in that, described connecting rod is convexly equipped with rib on the face of described first installing plate, and described connecting rod is supported mutually by described rib and described shell fragment.

7. air guide structure as claimed in claim 6, is characterized in that, described first installing plate is provided with the hole clipping for fixing described shell fragment in the both sides of correspondence described rib position; Described shell fragment comprises two holding divisions, substrate and multiple protuberance, two holding divisions are respectively arranged in hole clipping described in, described substrate is connected between described two holding divisions, described multiple protuberance is connected with described substrate one and extends towards described connecting rod, described multiple protuberance is arranged evenly and at intervals on the length direction of described first installing plate, forms the stopper slot supported with described rib between two adjacent protuberances.

8. air guide structure as claimed in claim 7, is characterized in that, described shell fragment also comprises and being connected and two lock plates extended towards described connecting rod with described substrate one; Described two lock plates lay respectively at head end and the tail end of multiple protuberance along the orientation of multiple protuberance, two position-arresting grooves are formed between described two lock plates and protuberance adjacent separately, when described rib moves to position-arresting groove described in, can only return towards the direction of another position-arresting groove.

9. air guide structure as claimed in claim 7, it is characterized in that, two hole clippings of described first installing plate respectively comprise a sipes position and a narrow groove location, the narrow groove location of a described hole clipping is communicated with the sipes position of this hole clipping and extends towards another hole clipping, and the groove width at described sipes position is greater than the groove width of described narrow groove location; The connecting plate that two holding divisions of described shell fragment respectively comprise Internal baffle, outer baffle and are connected between described outer baffle and Internal baffle, described outer baffle is connected with described substrate and can produces elastic deformation; The outline of described outer baffle and Internal baffle is greater than the groove width of described narrow groove location and is less than the groove width at described sipes position; Described outer baffle is blocked in a side of described first installing plate when described shell fragment and the first installing plate are fixed, described Internal baffle is blocked in the another side of described first installing plate when described shell fragment and the first installing plate are fixed, described connecting plate inserts in when described shell fragment and the first installing plate are fixed in described narrow groove location; The Internal baffle of described shell fragment is positioned at the side of described first installing plate towards described air outlet, described outer baffle is positioned at the side of described first installing plate described air outlet dorsad, and described outer baffle is the arc of wind deflector dorsad, described first installing plate is provided with resigning hole in the position of the substrate of the described shell fragment of correspondence, multiple protuberances on described substrate are through in described resigning hole, and described multiple protuberance protrudes out to the side of described first installing plate towards described air outlet.

10. an air-conditioner, is characterized in that, described air-conditioner comprises the air guide structure described in any one of claim 1 to 9.