CN110848951A - Elastic locking limiting part, push-out type air deflector limiting structure and air conditioner - Google Patents

Abstract

The invention provides an elastic locking limiting part, a push-out type air deflector limiting structure and an air conditioner, wherein the elastic locking limiting part comprises a base part, an axial limiting part, an elastic arm and a buckling part; the elastic arm extends out of the base part along the axial direction, the buckling part protrudes out of the elastic arm, and the end part of the buckling part is provided with a first guide surface; the buckling part is closer to the front end of the elastic locking limiting part than the axial limiting part, and the first guide surface faces back to the front end of the elastic locking limiting part. The push-out type air deflector limiting structure comprises elastic locking limiting, and the air conditioner comprises a push-out type air deflector limiting structure. The elastic locking limiting piece is inserted into the rotating shaft insertion hole of the push-out rack to limit the clamping hook; when the trip and the rotating shaft are separated from each other, the trip pushes the axial limiting part from the axial direction, at the moment, the first guide surface is abutted against the buckling surface of the rotating shaft to force the elastic arm to draw in and deform, so that the elastic locking limiting part is popped out from the rotating shaft, and the trip can be separated from the rotating shaft from the axial direction, thereby avoiding the damage of the trip and the rotating shaft.

Description

Elastic locking limiting part, push-out type air deflector limiting structure and air conditioner

Technical Field

The invention relates to the technical field of air conditioners, in particular to an elastic locking limiting piece, a push-out type air deflector limiting structure and an air conditioner.

Background

The push-out type air deflector limiting structure is arranged in an existing air conditioner, the push-out type air deflector limiting structure comprises a push rack, an air deflector assembly and a limiting bolt, a rotating shaft is arranged on the push rack, a clamping hook is arranged on the air deflector assembly, the clamping hook is hooked on the rotating shaft, the rotating shaft is locked by the limiting bolt along the axial direction of the rotating shaft, the head of the limiting bolt blocks the clamping hook in the axial direction, and the push rack and the air deflector assembly are prevented from being loosened.

The problem that this kind of current push-out aviation baffle limit structure exists is that, when the trip on the aviation baffle subassembly was unusual with the pivot cooperation, the trip and the pivot between appear breaking away from the complex trend, and is blockked by spacing bolt in the axial, the trip will be out of shape and follow the periphery of pivot, cause trip or pivot fracture easily.

Disclosure of Invention

A first object of the present invention is to provide an elastic locking stopper that effectively protects an air deflection assembly and a push rack.

The second purpose of the present invention is to provide a push-out type air deflector limiting structure which can effectively protect the air deflector assembly and the push rack.

A third object of the present invention is to provide an air conditioner which effectively protects an air deflection assembly and a push rack.

The elastic locking limiting piece provided by the invention comprises a base part, an axial limiting part, an elastic arm and a buckling part; the axial limiting part is fixedly connected with the base part, and the axial limiting part is positioned outside the base part on the axial projection of the elastic locking limiting part; the elastic arm extends out of the base part along the axial direction, the buckling part protrudes out of the peripheral surface of the elastic arm, and the end part of the buckling part is provided with a first guide surface in the axial direction of the elastic locking limiting part; in the axial direction of the elastic locking limiting part, the elastic locking limiting part is provided with an insertion front end, the buckling part is closer to the insertion front end than the axial limiting part, and the first guide surface faces back to the insertion front end.

According to the scheme, the elastic locking limiting piece can be inserted into the insertion hole of the rotating shaft of the push-out rack, buckled with the rotating shaft and used for limiting the clamping hook in the axial direction; when the trip and the rotating shaft are separated from each other, the trip pushes the axial limiting part from the axial direction, at the moment, the first guide surface is abutted against the buckling surface of the rotating shaft to force the elastic arm to draw in and deform, so that the elastic locking limiting part is popped out from the rotating shaft, and the trip can be separated from the rotating shaft from the axial direction, thereby avoiding the damage of the trip and the rotating shaft.

The clamping part is further provided with a second guide surface, and the second guide surface is opposite to the first guide surface in the axial direction.

It is from top to bottom visible, the second spigot surface that sets up opposite with first spigot surface be convenient for during the elastic locking locating part clamps the jack of pivot, reduce the installation degree of difficulty, improve assembly efficiency.

The further proposal is that the first guide surface and the axis of the elastic locking limit piece form a first inclination angle; the second guide surface forms a second inclination angle with the axis; the second tilt angle is greater than the first tilt angle.

It is from top to bottom seen that this setting is guaranteeing that the elastic locking locating part receives the axial force of certain degree and just can deviate from in the pivot to assembly stability and good spacing effect when guaranteeing normal use.

The elastic locking limiting part further comprises an insertion arm, the insertion arm extends out of the base along the axial direction of the elastic locking limiting part, and the axial limiting part protrudes out of the insertion arm.

Therefore, the inserting arms are used for being inserted into the inserting holes of the rotating shaft, the inserting arms and the inserting holes are mutually positioned, and the stability after assembly is further improved.

It is further provided that the at least two insertion arms are arranged on the outer circumference of the base part.

As can be seen, this arrangement provides for better mutual positioning between the insertion arm and the socket.

Further, the insertion arm extends from the base in the same direction as the elastic arm extends from the base.

Therefore, the elastic locking limiting part is convenient to machine and form, and the whole structure is more compact.

In a further scheme, the length of the plug-in arm is larger than that of the elastic arm in the axial direction of the elastic locking limiting piece.

Therefore, the arrangement of the clamping positions matched with the clamping parts on the rotating shaft is more reasonable, the design and processing difficulty is lower, and the production cost is reduced.

In a further development, the insertion arm projects from the base in the opposite direction to the resilient arm.

Further, the outer circumferential surfaces of the plurality of insertion arms are located on the same circumferential surface.

From top to bottom, the jack is the round hole, and the peripheral surface of a plurality of cartridge arms can further improve the assembly stability between elasticity locking locating part and the pivot with the internal face cooperation of jack to guarantee stability in use.

The further proposal is that the axial limiting part is arranged on the elastic arm.

Therefore, the structure is more simplified and the processing cost is lower on the premise that the axial limiting part is axially limited and elastically buckled by the arrangement.

Further, at least two elastic arms are arranged on the periphery of the base.

It is thus clear that a plurality of elastic arms from a plurality of directions and pivot lock, this setting can avoid the buckle portion to take off from the unusual pine of buckle position department.

The push-out type air deflector limiting structure comprises a push-out rack and an air deflector assembly, wherein a rotating shaft is arranged at the front end of the push-out rack, a clamping hook is arranged on the air deflector assembly, and the clamping hook is hooked on the periphery of the rotating shaft; the push-out type air deflector limiting structure further comprises an elastic locking limiting part, and the elastic locking limiting part adopts the elastic locking limiting part; the rotary shaft is provided with an insertion hole, and the push-out rack is provided with a buckling position and a buckling surface facing the buckling position at the rotary shaft; the elastic locking limiting piece is inserted into the jack, and the buckling part is positioned at the buckling position; in the axial direction of the rotating shaft, the first guide surface is matched with the buckling surface, and the axial limiting part limits the buckling hook.

The further scheme is that the rotating shaft forms a peripheral wall on the periphery of the insertion hole, and the buckling position is a buckling groove formed on the peripheral wall.

Therefore, the elastic locking limiting piece has a smaller size and the material cost is reduced.

The other further scheme is that the jack penetrates through the rotating shaft along the axial direction of the rotating shaft and is provided with a plug-in outlet; the buckle position is formed outside the cartridge outlet, and the buckle face is located the periphery of cartridge outlet.

Therefore, the forming difficulty of the rotating shaft can be reduced and the processing cost can be reduced.

The air conditioner provided by the third object of the invention comprises the push-out type air deflector limiting structure, and the push-out type air deflector limiting structure adopts the push-out type air deflector limiting structure.

Drawings

Fig. 1 is an exploded view of a push-out type air deflector limiting structure according to a first embodiment of the present invention.

Fig. 2 is a structural diagram of an elastic locking limiting member in a first embodiment of a push-out type air deflector limiting structure according to the present invention.

Fig. 3 is an axial projection view of the elastic locking limiting member in the first embodiment of the push-out type air deflector limiting structure of the present invention.

Fig. 4 is a sectional view of the push-out type air deflector limiting structure according to the first embodiment of the present invention.

Fig. 5 is an exploded view of a hidden air guiding plate assembly in a second embodiment of the push-out air guiding plate limiting structure of the present invention.

Fig. 6 is a structural diagram of an elastic locking limiting member in a third embodiment of a push-out type air deflector limiting structure according to the present invention.

Fig. 7 is a structural diagram of an elastic locking limiting member in a fourth embodiment of a push-out type air deflector limiting structure according to the present invention.

Fig. 8 is a structural diagram of an elastic locking limiting member in a fifth embodiment of a push-out type air deflector limiting structure according to the present invention.

Detailed Description

First embodiment of push-out type air deflector limiting structure

Referring to fig. 1, fig. 1 is an exploded view of a push-out type air deflector limiting structure according to a first embodiment of the present invention. The air conditioner provided by the invention is provided with a push-out type air deflector limiting structure, and the push-out type air deflector limiting structure is composed of a push-out rack 1, an air deflector assembly 2 and an elastic locking limiting piece 3. The push-out rack 1 is driven by a motor and is in gear transmission so as to realize linear movement along the length extension direction of the push-out rack; the push-out rack 1 comprises a rack body 11 and a rotating shaft 12 extending from the extending tail end of the rack body 11; the air deflector assembly 2 is arranged at an air outlet of the air conditioner; the air deflector assembly 2 comprises an air deflector body 21 and a clamping hook 22 extending from the air deflector body 21; the hook 22 is fastened to the rotating shaft 12, and then the elastic locking limiting member 3 is inserted into the insertion hole 120 of the rotating shaft 12, so that the hook 22 is limited between the elastic locking limiting member 3 and the rack body 11.

The rotating shaft 12 is provided with an insertion hole 120 opened from an axial end, the rotating shaft 12 is provided with a peripheral wall 121 surrounding the periphery of the insertion hole 120, two symmetrically arranged buckling positions are arranged on the peripheral wall 121, each buckling position is a clamping groove 122 with a square outline, and the clamping grooves 122 penetrate through the inner side and the outer side of the peripheral wall 121.

Referring to fig. 2 and 3, fig. 2 is a structural diagram of an elastic locking limiting member in a first embodiment of a push-out type air deflector limiting structure of the present invention, and fig. 3 is an axial projection view of the elastic locking limiting member in the first embodiment of the push-out type air deflector limiting structure of the present invention. The elastic lock stopper 3 has a base portion 31 at an axial end portion thereof, the base portion 31 serves as an insertion tip 300 when the elastic lock stopper 3 is inserted, the base portion 31 has an insertion arm 32 and an elastic arm 34 extending in a direction (z-axis negative direction) opposite to the insertion direction, the pair of insertion arms 32 is symmetrically arranged on an outer periphery of the base portion 31, the pair of elastic arms 34 is symmetrically arranged on an outer periphery of the base portion 31, the insertion arm 32 and the elastic arm 34 are 90 degrees apart in a circumferential direction of the base portion 31, and an outer peripheral surface 321 of the pair of insertion arms 32 and an outer peripheral surface 341 of the pair of elastic arms 34 are located on the same circumferential surface.

The extension length of the insertion arm 32 is greater than that of the elastic arm 34 in the axial direction of the elastic lock stopper 3, and the extension end of the insertion arm 32 is connected with an axial stopper portion 33, and the axial stopper portion 33 protrudes in a shoulder shape in the radial direction of the elastic lock stopper 3 from the outer circumferential surface 321 of the insertion arm 32, see fig. 3, and the axial stopper portion 33 is located outside the base portion 31 in the axial projection of the elastic lock stopper 3.

Referring to fig. 4, fig. 4 is a cross-sectional view of the push-out type air deflector limiting structure according to the first embodiment of the present invention. The outer peripheral surface 341 of the elastic arm 34 is raised to form a catch 35, see fig. 3, and the catch 35 is located outside the base 31 in the axial projection of the elastic lock stopper 3. In the axial direction of the elastic lock stopper 3, the locking portion 35 has a first guide surface 351 and a second guide surface 352 which are oppositely arranged, the first guide surface 351 and the second guide surface 352 are both flat surfaces, and the first guide surface 351 and the axis L of the elastic lock stopper 3 form a first inclination angle a; the second guide surface 352 forms a second inclination angle b with the axis L, which is greater than the first inclination angle a.

Since the axial stopper portion 33 is located at the extended end of the insertion arm 32 with the extension length of the insertion arm 32 being greater than the extension length of the elastic arm 34 in the axial direction of the elastic lock stopper 3, the engaging portion 35 is located closer to the insertion tip 300 than the axial stopper portion 33 in the axial direction, and the first guide surface 351 faces away from the insertion tip 300 and the second guide surface 352 faces toward the insertion tip.

Referring to fig. 1 to 4, when the push-out type air deflector limiting structure is assembled, the hook 22 is fastened to the outer periphery of the rotating shaft 12, and then the elastic locking limiting member 3 is inserted. The front end 300 enters the insertion hole 120 first, and then the second guiding surface 352 abuts against the peripheral wall 121 of the rotating shaft 12 to elastically deform and fold the elastic arm 34; until the locking part 35 enters the locking groove 122, the elastic arm 34 rebounds, the locking part 35 is locked with the peripheral wall 121, and the first guide surface 351 is opposite to the locking surface 122a in the locking groove 122 for limiting.

Since the outer circumferential surface 321 of the insertion arm 32 and the outer circumferential surface 341 of the elastic arm 34 are located on the same circumferential surface, and the axial direction stopper portion 33 protrudes from the outer circumferential surface 321 of the insertion arm 32, after the elastic lock stopper 3 is inserted into the circular insertion hole 120 (shown in fig. 1), the outer circumferential surface 321 of the insertion arm 32 and the outer circumferential surface 341 of the elastic arm 34 are engaged with the inner circumferential wall of the insertion hole 120 to improve the insertion stability. After the insertion, since the outer diameter of the axial direction limiting portion 33 is larger than the inner diameter of the insertion hole 120, the axial direction limiting portion 33 is limited to the outside of the axial direction end face of the rotating shaft 12, and the hook 22 fastened to the outer periphery of the rotating shaft 12 in the axial direction of the rotating shaft 12 is limited to the position 13 between the rack body 11 and the axial direction limiting portion 33.

When the hook 22 is abnormally engaged with the rotating shaft 12, that is, when the hook 22 tends to disengage from the rotating shaft 12, the hook 22 generates a pressing force on the axial limiting portion 33 in the axial direction of the rotating shaft 12, when the pressing force exceeds a certain value, the first guide surface 351 and the fastening surface 122a in the fastening groove 122 abut against each other to elastically deform and gather the elastic arm 34, then the fastening portion 35 is disengaged from the fastening groove 122, and then the elastic locking limiting member 3 is ejected from the insertion hole 120 under the urging of the pressing force, and then the hook 22 is disengaged from the rotating shaft 12 in the axial direction. The axial releasing mode of the hook 22 can prevent the hook 22 from being deformed and causing the hook 22 or the rotating shaft 12 to be broken when being released along the peripheral direction of the rotating shaft 12, thereby prolonging the service life of the product.

Second embodiment of push-out type wind deflector limiting structure

Referring to fig. 5, fig. 5 is an exploded view of a hidden air deflection assembly in a second embodiment of the push-out air deflection limiting structure of the present invention. In this embodiment, the insertion hole 410 in the rotating shaft 41 of the pushing rack penetrates between the two opposite ends of the pushing rack along the axial direction of the rotating shaft 41, at the front end of the insertion direction, the insertion hole 410 has an insertion outlet 411, the fastening position is formed outside the insertion outlet 411, and the fastening surface 412 is located at the periphery of the insertion outlet 411; the insertion arm 42 of the elastic lock stopper 4 extends long enough to allow the elastic lock stopper 4 to be inserted into the insertion hole 410 and to pass through the insertion outlet 411. After the elastic lock stopper 4 is inserted into the insertion hole 410, the engaging portion 45 protrudes from the insertion outlet 411, and the first guide surface 451 faces the engaging surface 412.

Third embodiment of push-out type wind deflector limiting structure

Referring to fig. 6, fig. 6 is a structural diagram of an elastic locking limiting member in a third embodiment of the push-out type air deflector limiting structure of the present invention. In this embodiment, the insertion arm 52 extends from the base 51 in the opposite direction to the elastic arm 54 extending from the base 51, and this arrangement also satisfies the required function of the elastic lock-limiting member 5.

Fourth embodiment of push-out type wind deflector limiting structure

Referring to fig. 7, fig. 7 is a structural diagram of an elastic locking limiting member in a fourth embodiment of the push-out type air deflector limiting structure of the present invention. In this embodiment, the axial limiting portion 63 is fixedly disposed on the outer periphery of the base portion 61, the base portion 61 does not have an insertion arm, the extending end of the elastic arm 64 away from the base portion 61 serves as an insertion front end 600 of the elastic locking limiting member 6, and the elastic arm 64 is inserted into the insertion hole of the rotating shaft, so that insertion positioning and elastic engagement are achieved.

Fifth embodiment of push-out type wind deflector limiting structure

Referring to fig. 8, fig. 8 is a structural diagram of an elastic locking limiting member in a fifth embodiment of a push-out type air deflector limiting structure of the present invention. In this embodiment, the elastic lock limiting member 7 is composed of a base 71, an elastic arm 74, an axial limiting portion 73, and a locking portion 75 without an insertion arm; in the elastic arm 74, the elastic arm 74 is an elastic insertion arm, the axial direction limiting portion 73 protrudes from the extending end of the elastic arm 74, and the locking portion 75 protrudes from the extending middle portion of the elastic arm 74. The elastic arm 74 is inserted into the insertion hole of the rotating shaft, and insertion positioning and elastic buckling are realized at the same time.

Finally, it should be emphasized that the above-described preferred embodiments of the present invention are merely examples of implementations, rather than limitations, and that many variations and modifications of the invention are possible to those skilled in the art, without departing from the spirit and scope of the invention.

Claims (15)

1. Elastic locking locating part, its characterized in that:

comprises a base part, an axial limiting part, an elastic arm and a buckling part;

the axial limiting part is fixedly connected with the base part, and the axial limiting part is positioned outside the base part on the axial projection of the elastic locking limiting part;

the elastic arm extends out of the base along the axial direction of the elastic locking limiting piece, the buckling part protrudes out of the outer peripheral surface of the elastic arm, and the end part of the buckling part is provided with a first guide surface in the axial direction of the elastic locking limiting piece;

in the axial direction of the elastic locking limiting part, the elastic locking limiting part is provided with an insertion front end, the buckling part is closer to the insertion front end than the axial limiting part, and the first guide surface faces back to the insertion front end.

2. The elastic lock limiter according to claim 1, wherein:

the buckling part is also provided with a second guide surface, and the second guide surface is opposite to the first guide surface in the axial direction of the elastic locking limiting part.

3. The elastic lock limiter according to claim 2, wherein:

the first guide surface and the axis of the elastic locking limiting part form a first inclination angle;

the second guide surface forms a second angle of inclination with the axis;

the second tilt angle is greater than the first tilt angle.

4. The elastic lock limiter according to any one of claims 1 to 3, wherein:

the elastic locking limiting part further comprises an insertion arm, the insertion arm extends out of the base along the axial direction of the elastic locking limiting part, and the axial limiting part protrudes out of the insertion arm.

5. The elastic lock limiter of claim 4 wherein:

at least two of the insertion arms are arranged at the periphery of the base.

6. The elastic lock limiter of claim 4 wherein:

the direction in which the insertion arm protrudes from the base portion is the same as the direction in which the elastic arm protrudes from the base portion.

7. The elastic lock limiter of claim 6 wherein:

in the axial direction of the elastic locking limiting part, the length of the insertion arm is larger than that of the elastic arm.

8. The elastic lock limiter of claim 4 wherein:

the insertion arm extends from the base in a direction opposite to a direction in which the resilient arm extends from the base.

9. The elastic lock limiter of claim 4 wherein:

the outer circumferential surfaces of the plurality of insertion arms are located on the same circumferential surface.

10. The elastic lock limiter according to any one of claims 1 to 3, wherein:

the axial limiting part is arranged on the elastic arm.

11. The elastic lock limiter according to any one of claims 1 to 3, wherein:

at least two of the resilient arms are disposed at the periphery of the base.

12. The push-out type air deflector limiting structure comprises a push-out rack and an air deflector assembly, wherein a rotating shaft is arranged at the front end of the push-out rack, a clamping hook is arranged on the air deflector assembly, and the clamping hook is hooked on the periphery of the rotating shaft;

the method is characterized in that:

the limit structure of the push-out air deflector further comprises an elastic locking limit part, wherein the elastic locking limit part adopts the elastic locking limit part of any one of the claims 1 to 11;

the rotary shaft is provided with a jack, and the push-out rack is provided with a buckling position and a buckling surface facing the buckling position at the rotary shaft;

the elastic locking limiting piece is inserted into the jack, and the buckling part is positioned at the buckling position;

in the axial direction of the rotating shaft, the first guide surface is matched with the buckling surface, and the axial limiting part is used for limiting the buckling hook.

13. The push-out air deflection limiting structure of claim 12 wherein:

the rotating shaft forms a peripheral wall on the periphery of the insertion hole, and the clamping groove is formed in the peripheral wall.

14. The push-out air deflection limiting structure of claim 12 wherein:

the jack penetrates through the rotating shaft along the axial direction of the rotating shaft, and is provided with a plug-in outlet;

the buckle position is formed outside the plug-in mounting outlet, and the buckle face is located the periphery of the plug-in mounting outlet.

15. The air conditioner comprises a push-out type air deflector limiting structure, and is characterized in that:

the push-out air deflector restraining structure is as claimed in any one of claims 12 to 14.

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