CN210772704U - Air guide assembly's correction structure and have its air conditioner - Google Patents

Abstract

The utility model provides a wind guide assembly's correction structure, including correcting structure and wind guide assembly, wind guide assembly includes and rotates the connecting axle of being connected with the correction structure, the connecting axle has the supporting part, the supporting part includes the gasket, the lower terminal surface and the correction structure butt of gasket. The utility model discloses a can improve air guide component's self-lubricity and wearability, make and open the door smooth and easy.

Description

Air guide assembly's correction structure and have its air conditioner

Technical Field

The utility model relates to an air conditioner technical field particularly, relates to a wind-guiding component's correction structure and have its air conditioner.

Background

At present, the requirement on the appearance of the air conditioner is very high, and particularly, the requirement on uniformity is high for some appearance gaps. To the cooperation in the wind guide assembly, the prior art has adopted the correction structure as shown in fig. 1, the wind guide assembly comprises air door 10 and wind guide door welt 240, assemble through the buckle mode, the design has grid 220 on the air door welt 240, design correction structure 40 on the wind channel, and be half-open state, the design has axle 230 on the wind guide door welt 240, correction structure 40 passes through the shaft hole cooperation, the deformation condition of correction air door 10 when rotatory, ensure that the motion axial lead is the straight line, fix a position and spacing wind guide assembly, ensure that the fit clearance is even in the wind guide assembly.

However, after many tests and uses, it was found that the rotational movement of the damper 10 was not smooth and that after repeated rotations, wear occurred at the correcting structure 40.

Therefore, it is necessary to provide a correction structure of an air guide assembly, which can improve the self-lubrication and wear resistance of the air guide assembly and enable the door to be opened smoothly.

SUMMERY OF THE UTILITY MODEL

The invention solves the problems that the rotation of the air guide assembly is not smooth, and the correcting structure is abraded after the air guide assembly rotates repeatedly.

In order to solve the above problems, the present invention provides a correction structure for an air guide assembly.

The utility model provides a wind guide assembly's correction structure, is including correcting structure and wind guide assembly, wind guide assembly includes rotates the connecting axle of being connected with the correction structure, the connecting axle has the supporting part, the supporting part includes the gasket, the lower terminal surface and the correction structure butt of gasket.

Set up the gasket again in correction structure department, direct contact between separation air guide component and the correction frame can strengthen the self-lubricating between air guide component and the wind channel shell to because the rigidity of gasket self, can further improve air guide component's wearability.

Furthermore, the correction structure comprises a correction frame rotationally connected with the connecting shaft, and the lower end face of the gasket is abutted to the upper end face of the correction frame.

Furthermore, the gasket is annular, a fan-shaped annular gap with a small inner part and a large outer part is arranged at the position of the ring, and the central angle of the gap is 0-90 degrees.

The gasket can be clamped into the connecting shaft through the gap, and the fan-shaped gap prevents the connecting shaft from being separated and does not rotate with the shaft.

Furthermore, the connecting shaft is provided with an annular groove for clamping the gasket, the annular groove is in a fan-shaped ring shape, and the central angle is 270-360 degrees.

The setting can make the connecting axle rotate on the structure of rectifying, and make the gasket not take place axial displacement to make the alignment jig keep certain clearance with the wind-guiding grid on the connecting axle, reduce the wearing and tearing of alignment jig and wind-guiding grid.

Furthermore, the connecting shaft is radially provided with bulges, the bulges are arranged at the mutual peripheral angles of the ring grooves, the central angle is 0-90 degrees, and the bulges are abutted to the gaps of the gaskets. The protrusions are provided to limit rotation of the spacer.

Furthermore, the air guide assembly comprises an air duct shell, an air outlet is formed in the air duct shell, and the correcting frame is arranged on two sides of the air outlet in the air duct shell through a connecting arm support.

The two ends of the correcting frame are connected with the two sides of the air outlet, the middle part of the correcting frame is suspended, the air outlet of the air duct shell is supported and corrected, and the air outlet is prevented from being deformed to affect the opening and closing of the air guide door.

Furthermore, the correcting frame is fixedly connected with two side walls of the air outlet.

The preferred correction frame and the two side walls of the air outlet are in a detachable connection mode.

Furthermore, the correcting frame is provided with a correcting end, and the correcting end is provided with a slotted hole, so that the connecting shaft can rotate in the slotted hole.

Furthermore, more than one correcting frame is arranged, and the gasket is only arranged on the uppermost correcting frame. Can guarantee air guide component's roughness to can guarantee to rectify the gap between frame and the air guide component.

Furthermore, air guide component still include air guide door and air guide grid, air guide door and air guide grid fixed connection, air guide door and air guide grid can rotate simultaneously.

The air guide door and the air guide grid are connected into a whole, the air guide door and the air guide grid can be driven to operate simultaneously through the same air door motor, and compared with a structure that the air guide door and the air guide grid are separated, the structure is simplified, and the cost is saved.

Compared with the prior art, a wind guide component's correction structure have following advantage:

(1) the utility model discloses a correction structure of air guide component, which improves the self-lubricating property of the air guide component, and improves the wear resistance of the air guide component due to the rigidity of the gasket;

(2) a wind guide assembly's correction structure, wind guide assembly keeps certain clearance with correcting between the structure, the wind-guiding door is opened and closed smoothly, phenomenon such as moving part card is dead can not appear.

Another object of the present invention is to provide an air conditioner, which comprises the above-mentioned air guide assembly calibration structure.

Drawings

Fig. 1 is a schematic view of a correcting structure of an air guide assembly according to the background art of the present invention;

fig. 2 is a schematic view of the whole air conditioner according to the embodiment of the present invention;

fig. 3 is an exploded view of the air guide assembly according to the embodiment of the present invention;

FIG. 4 is a schematic view of an assembly of a calibration frame for an air duct housing according to an embodiment of the present invention;

fig. 5 is an assembly schematic view of the air guide assembly according to the embodiment of the present invention;

fig. 6 is an exploded schematic view of an air guide assembly according to an embodiment of the present invention;

fig. 7 is a schematic view of a gasket structure according to an embodiment of the present invention.

1-air guide door, 10-air door, 22-air guide grid, 220-grid, 230-shaft, 21-first rotating shaft, 23-connecting shaft, 231-first connecting shaft, 232-second connecting shaft, 233-bulge, 234-ring groove, 235-optical shaft section, 25-third rotating shaft, 24-air guide door connecting plate, 240-air guide door lining plate, 3-air duct shell, 31-first connecting hole, 34-second connecting hole, 35-shaft sleeve, 36-air door motor, 37-hole sleeve, 4-correcting frame, 41-correcting end, 411-slotted hole, 46-first connecting arm, 47-second connecting arm, 40-correcting structure, 5-air outlet, 7-air guide component, 8-gasket, 81-ring inner hole, 82-notch.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

The utility model provides an air guide assembly's correction structure, air guide assembly includes rotates the connecting axle 23 of being connected with the correction structure, connecting axle 23 has the supporting part, the supporting part includes gasket 8, gasket 8's lower terminal surface and correction structure butt.

The correcting structure comprises a correcting frame 4 rotationally connected with the connecting shaft 23, and the lower end face of the gasket 8 is abutted to the upper end face of the correcting frame 4.

The gasket 8 is in a ring shape, a sector ring-shaped notch 82 with a small inner part and a big outer part is arranged at the ring, and the central angle of the notch 82 is 0-90 degrees.

The connecting shaft 23 is provided with a ring groove 234 for clamping the gasket 8, the ring groove 234 is fan-shaped, and the central angle is 270-360 degrees.

The connecting shaft 23 is provided with a bulge 233 in the radial direction, the bulges 233 are arranged at the mutual peripheral angles of the ring grooves 234, the central angle is 0-90 degrees, and the bulges 233 are abutted with the gaps 82 of the gasket 8.

The air guide assembly comprises an air duct shell 3, an air outlet 5 is formed in the air duct shell 3, and the correcting frame 4 is arranged on two sides of the air outlet 5 in the air duct shell 3 through a connecting arm support.

The correcting frame 4 is provided with a correcting end 41, and the correcting end 41 is provided with a slotted hole 411, so that the connecting shaft 23 can rotate in the slotted hole 411.

The number of the correcting frames 4 is more than one, and the gasket 8 is only arranged on the uppermost correcting frame 4.

Further, connecting axle 23 one end is optical axis 235, and one end is provided with annular 234, the rotatable cup joint of correction frame 4 on optical axis 235, gasket 8 pass through breach 82 joint annular 234 department on connecting axle 23.

The correcting frame 4 comprises a first connecting arm 46 and a second connecting arm 47, one end of the first connecting arm 46 and one end of the second connecting arm 47 are intersected to form an included angle which is 0-180 degrees, the other end of the first connecting arm 46 and the other end of the second connecting arm 47 extend to two sides of the air outlet from the intersection, and are fixedly connected with the side wall of the air outlet 5, preferably detachably connected.

The first connecting arm 46 or the second connecting arm 47 is provided with a correcting end 41, the correcting end 41 is cylindrical, and a slotted hole 411 is axially formed, so that the connecting shaft 23 can rotate in the slotted hole 411.

Air guide component 7, including air guide door 1, air guide grid 22 and air guide door connecting plate 24, air guide door connecting plate 24 both sides and 1 joint of air guide door, air guide door connecting plate 24 one side and the air guide grid 22 fixed connection that deviate from the air guide door.

The air guide door 1 is connected with the air guide grid 22 into a whole through the air guide door connecting plate 24, the air guide door 1 and the air guide grid 22 can be driven to operate simultaneously through the same air door motor 36, and compared with a structure that the air guide door 1 and the air guide grid 22 are separated, the structure is simplified, and the cost is saved.

In the following embodiment, as shown in fig. 2, the air guiding assembly 7 is mounted on the air conditioner, and the air guiding door 1 covers the outside of the air conditioner. Fig. 3 is an exploded view of the air guide assembly 7 and an air conditioner, the air guide assembly 7 includes an air guide door 1, an air guide grille 22 and an air guide door connecting plate 24, the air guide door 1 is of an oblong flat plate structure, and the air guide door connecting plate 24 is of an oblong flat plate structure, and is fitted and fixedly connected with the air guide door 1 in shape, preferably clamped together; wind-guiding grid 22 with wind-guiding door connecting plate 24 become the contained angle setting, wind-guiding grid 22 both ends be provided with first pivot 21, third pivot 25 is connected with air door motor 36 through axle sleeve 35, first pivot 21 is connected with hole cover 37, wind-guiding grid 22 middle part is provided with connecting axle 23, second connecting axle 23 card go into to rectify and put up 4 in the correction end 41, can rotate in rectifying end 41, preferred first pivot 21, connecting axle 23, the coaxial setting of third pivot 25, air door motor 36 drive first pivot 21 connecting axle 23, third pivot 25 rotate in corresponding hole, form the switching of wind-guiding door 1.

As shown in fig. 4, the calibration frame 4 is mounted on the air duct housing 3, two calibration frames 4 span across the air outlet 5 of the air duct housing 3, the calibration frames 4 are arranged at intervals up and down along the length direction of the air outlet 5, the calibration end 41 of the calibration frame 4 faces the outside of the air outlet 5, and the first connecting arm 46 and the second connecting arm 47 of the calibration frame 4 are mounted on two side walls of the air outlet 5 and are detachably and fixedly connected, preferably, connected by screws. Further, first connecting arm 46 and second connecting arm 47 contained angle be greater than 0, and be less than 180, because air guide door 1 installs and rotates after the alignment end 41 and open angular travel restriction, the contained angle of first connecting arm 46 and second connecting arm 47 ensures that air guide door 1 can rotate to the maximum angle according to air guide door 1 opening angle setting, first connecting hole 31, the second connecting hole 34 of wind channel shell 3 are used for passing first pivot 21, third pivot 25.

As shown in fig. 5, the wind guiding assembly 7 is provided with a first connecting shaft 231 and a second connecting shaft 232, the first connecting shaft 231 and the second connecting shaft 232 divide the wind guiding grille 22 into three parts, including a first grid 221, a second grid 222 and a third grid 223, the first grid 221, the second grid 222 and the third grid 223 have the same structure, the first connecting shaft 231 is connected with the slotted hole 411 of the correcting frame 4 and can rotate on the correcting frame 4, the gasket 8 is clamped on the first connecting shaft 231, the second connecting shaft 232 is sleeved in the slotted hole 411 of the correcting end 41, due to gravity, the wind guiding assembly 7 is mounted on the correcting frame 4 and can press the correcting frame 4 downwards, the lower end surface of the first grid 221 contacts with the upper end surface of the correcting end 41, the lower end surface of the second grid 222 contacts with the upper end surface of the correcting end 41, the rotation of the wind guiding assembly 7 can be worn to affect the opening and closing of the wind guiding door 1, the gasket 8 is added between the first grid 221 and the correcting end 41, the contact and abrasion between the lower end surface of the first grating 221 and the upper end surface of the correction end 41 are avoided, a gap is ensured between the lower end surface of the second grating 222 and the upper end surface of the correction end 41, a gap is also generated between the upper end surface of the third grating 223 and the lower end surface of the correction end 41, the abrasion between the air guide assembly 7 and the correction frame 4 is reduced, and the door opening is smooth.

As shown in fig. 6 and 7, one end of the first connecting shaft 231 is an optical axis section 235, one end is provided with a ring groove 234, the ring groove 234 is formed by inward recess of the optical axis, the central angle of the ring groove 234 is 270-360 degrees, the fracture of the ring groove 234 is provided with a protrusion 233, the central angle of the protrusion 233 and the central angle of the ring groove 234 are mutually peripheral angles, the central angle of the protrusion 233 is 0-90 degrees, gasket 8 be cyclic annular, one side of ring sets up breach 82, inside is interior annular opening 81, breach 82 is inside little extra-large fan ring shape, the central angle is 0 ~ 90, breach 82 is close to annular opening 81 department distance and is less than breach 82 and is close to outer ring department distance, the annular opening 81 card of gasket 8 is in annular 234 department, restriction gasket 8 endwise slip, breach 82 butt is in protruding 233 department, restriction gasket 8 is rotatory, second connecting axle 232 is the optical axis, directly embolia in slotted hole 411, can be in slotted hole 411 internal rotation.

After the gasket 8 is installed, the upper end face of the gasket 8 abuts against the lower end face of the first grid 221, the upper end face of the correction end 41 abuts against the lower end face of the gasket 8, contact abrasion between the correction frame 4 and the air guide grid 22 is avoided, self-lubrication between the air guide assembly 7 and the air duct shell 3 is enhanced, and smooth movement of the air guide assembly 7 is ensured.

Another object of the present invention is to provide an air conditioner, which comprises the above-mentioned air guide assembly calibration structure.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. The utility model provides an air guide assembly's correction structure, is including correcting structure and air guide assembly, air guide assembly includes connecting axle (23) of being connected with correcting the structure rotation, its characterized in that, connecting axle (23) have a supporting part, the supporting part includes gasket (8), the lower terminal surface and the structure butt of correcting of gasket (8).

2. The air guide assembly correcting structure of claim 1, wherein the correcting structure comprises a correcting frame (4) rotatably connected with a connecting shaft (23), and the lower end face of the gasket (8) is abutted with the upper end face of the correcting frame (4).

3. The air guide assembly correcting structure of claim 1, wherein the gasket (8) is arranged in a ring shape, a fan-ring-shaped notch (82) with a small inner part and a large outer part is arranged at the ring, and the central angle of the notch (82) is 0-90 degrees.

4. The air guide assembly correcting structure of claim 3, wherein the connecting shaft (23) is provided with an annular groove (234) for clamping the gasket (8), the annular groove (234) is in a fan-shaped ring shape, and the central angle is 270-360 degrees.

5. The air guide assembly correcting structure of claim 4, wherein the connecting shaft (23) is provided with a protrusion (233) in the radial direction, the protrusions (233) are arranged at the mutual peripheral angles of the annular grooves (234), the central angles are 0-90 degrees, and the protrusions are abutted with the notches (82) of the gasket (8).

6. The air guide assembly correcting structure of claim 2, wherein the air guide assembly comprises an air duct shell (3), an air outlet (5) is formed in the air duct shell (3), and the correcting frame (4) is arranged on two sides of the air outlet (5) in the air duct shell (3) through a connecting arm support.

7. The air guide assembly correcting structure of claim 6, wherein the correcting frame (4) is provided with a correcting end (41), and the correcting end (41) is provided with a slotted hole (411) so that the connecting shaft (23) can rotate in the slotted hole (411).

8. The air guide assembly correcting structure according to claim 6, wherein more than one correcting rack (4) is provided, and the spacer (8) is provided only on the uppermost correcting rack (4).

9. The correcting structure of the air guide assembly according to claim 1, wherein the air guide assembly further comprises an air guide door (1) and an air guide grid (22), the air guide door (1) is connected with the air guide grid (22), and the air guide door (1) and the air guide grid (22) can rotate simultaneously.

10. An air conditioner characterized by comprising the air guide assembly correcting structure of any one of claims 1 to 9.

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