CN109631292A - Sweep wind blade subassembly and air conditioner - Google Patents

Abstract

The application provides a sweep wind blade subassembly and air conditioner. The wind sweeping blade assembly comprises a plurality of wind sweeping blades, a driving piece and a driven connecting piece. The plurality of wind sweeping blades are rotatably arranged at intervals, the driving piece is connected with each wind sweeping blade respectively and used for driving each wind sweeping blade to rotate, and the driven connecting piece is connected with a plurality of wind sweeping blades or each wind sweeping blade respectively and used for moving along with the connected wind sweeping blades. By applying the technical scheme of the invention, the driven connecting piece is respectively connected with a plurality of or each of the plurality of wind sweeping blades, so that the plurality of or each of the plurality of wind sweeping blades can be associated, the wind sweeping blades connected with the driven connecting piece can be mutually fixed, and the stability of the wind sweeping blades is improved. Even when the wind outlet speed is high, the wind sweeping blades are not easy to vibrate, and the noise is reduced.

Description

Swing flap blade assembly and air conditioner

Technical field

The present invention relates to air conditioner technical fields, in particular to a kind of swing flap blade assembly and air conditioner.

Background technique

Nowadays, air-conditioning has been used in the every aspect of people's life and work.It is classified as according to the mounting means of air-conditioning Split-type air conditioner and window air conditioner, wherein window air conditioner is mostly installed at the position of room window.

Because of window air conditioner small volume, its corresponding wind-out range is smaller, but its air-out volume is larger, Jin Erhui Keep wind speed larger, causes the blade in swing flap blade assembly to be easy vibration, generate strong noise, influence user experience.

Summary of the invention

The embodiment of the invention provides a kind of swing flap blade assembly and air conditioners, exist to solve air conditioner in the prior art Swing flap blade assembly in blade be easy vibration generate noise the technical issues of.

The application embodiment provides a kind of swing flap blade assembly, comprising: multiple swing flap blades, rotationally interval is set It sets；Active drive part is connected respectively at each swing flap blade, for driving each swing flap blade to rotate；Slave link is and more Multiple or each swing flap blades in a swing flap blade are respectively connected with, for following the swing flap blade of connection to move.

In one embodiment, slave link is respectively connected with each swing flap blade.

In one embodiment, active drive part is connected with the first end of swing flap blade, slave link and swing flap leaf The second end of piece is connected or the position between the first end and second end of swing flap blade is connected.

In one embodiment, the first end of swing flap blade is provided with active interconnecting piece, and active interconnecting piece is used for and master Dynamic actuator is connected, and the position between the second end of swing flap blade or the first end and second end of swing flap blade is provided with driven company Socket part is used to be connected with slave link from rotation connection.

In one embodiment, active interconnecting piece include relative to swing flap blade protrusion setting the first linking arm and The first convex buckle on first linking arm is set, the first card hole compatible with the first convex buckle is formed on active drive part, the One convex buckle is caught in the first card hole and can rotate relative to the first card hole.

In one embodiment, active drive part includes being drivingly connected plate and connecting with the active that plate is connected is drivingly connected Bar, the first card hole, which is provided with, to be drivingly connected on plate, and active connecting rod with motor driven for connecting.

In one embodiment, it is offered in active connecting rod for the connecting sewing with the cooperation of the drive shaft of motor.

In one embodiment, from rotation connection include relative to swing flap blade protrusion setting the second linking arm and The second convex buckle on second linking arm is set, the second card hole compatible with the second convex buckle is formed on slave link, the Two convex buckles are caught in the second card hole and can rotate relative to the second card hole.

In one embodiment, swing flap blade includes blade body and the rotation axis that blade body both ends end is arranged in, and is turned Moving axis is for being rotatably mounted swing flap blade, and the part of blade body is in the thickness direction thereof relative to the other parts of blade body Protrusion forms air distributing structure.

In one embodiment, air distributing structure is formed in the middle part of blade body.

In one embodiment, air distributing structure in the width direction of blade body from air inlet direction to air-out direction gradually It broadens.

In one embodiment, air distributing structure is trapezoidal.

In one embodiment, transition structure is formed between air distributing structure and the other parts of blade body.

In one embodiment, transition structure is curved face type.

In one embodiment, transition structure in the width direction of blade body from air inlet direction to air-out direction gradually It broadens.

In one embodiment, the outlet air outer rim of blade body is projected as arc on the thickness direction of blade body.

In one embodiment, relieve heat rib is formed on blade body, relieve heat rib is for dispersing outlet air.

In one embodiment, relieve heat rib is arranged along the length direction of blade body.

In one embodiment, relieve heat rib is a plurality of, the setting of a plurality of relieve heat rib interval.

Present invention also provides a kind of air conditioner, including swing flap blade assembly, swing flap blade assembly is above-mentioned swing flap leaf Piece component.

In one embodiment, air conditioner is window air conditioner.

In the above-described embodiments, each swing flap blade can be driven to rotate by active drive part, and then realizes swing flap angle The adjusting of degree.It is respectively connected with, can be incited somebody to action by slave link and multiple or each swing flap blades in multiple swing flap blades again Multiple or each swing flap blade articulations in multiple swing flap blades get up, and the swing flap blade for allowing slave link to connect can be mutual It is fixed, improve the stability of swing flap blade.Even if swing flap blade is also not easy to shake, and then subtracts when wind speed is larger The small generation of noise.

Detailed description of the invention

The attached drawing constituted part of this application is used to provide further understanding of the present invention, schematic reality of the invention It applies example and its explanation is used to explain the present invention, do not constitute improper limitations of the present invention.In the accompanying drawings:

Fig. 1 is the schematic perspective view of the embodiment of swing flap blade assembly according to the present invention；

Fig. 2 is the structural schematic diagram of the active drive part of the swing flap blade assembly of Fig. 1；

Fig. 3 is the structural schematic diagram of the slave link of the swing flap blade assembly of Fig. 1；

Fig. 4 is the structural schematic diagram and its end enlarged structure schematic diagram of the swing flap blade of the swing flap blade assembly of Fig. 1；

Fig. 5 is the schematic view of the front view of the swing flap blade of Fig. 4；

Fig. 6 is the side structure schematic view of the swing flap blade of Fig. 4；

Fig. 7 is the structural schematic diagram of the embodiment of air conditioner according to the present invention.

Specific embodiment

To make the objectives, technical solutions, and advantages of the present invention clearer, right below with reference to embodiment and attached drawing The present invention is described in further details.Here, exemplary embodiment and its explanation of the invention is used to explain the present invention, but simultaneously It is not as a limitation of the invention.

Fig. 1 shows the embodiment of swing flap blade assembly of the invention, which includes multiple swing flap blades 10, active drive part 20 and slave link 30.Multiple swing flap blades 10 are rotationally spaced setting, and active drive part 20 is distinguished It is connected in each swing flap blade 10, for driving each swing flap blade 10 to rotate, slave link 30 and multiple swing flap blades 10 In multiple or each swing flap blades 10 be respectively connected with, for following the swing flap blade 10 of connection to move.

It applies the technical scheme of the present invention, each swing flap blade 10 can be driven to rotate by active drive part 20, in turn Realize the adjusting of swing flap angle.Pass through multiple or each swing flap blades 10 in slave link 30 and multiple swing flap blades 10 again It is respectively connected with, multiple or each swing flap blades 10 in multiple swing flap blades 10 can be associated, allow slave link 30 The swing flap blade 10 of connection can be fixed to each other, and improve the stability of swing flap blade 10.Even if being swept when wind speed is larger Air blade 10 is also not easy to shake, and then reduces the generation of noise.

As a kind of highly preferred embodiment, slave link 30 is respectively connected with each swing flap blade 10.In this way, Each swing flap blade 10 can be allowed to be fixed to each other, improve the stability of swing flap blade 10.As other optional embodiments, Slave link 30 can also be allowed only to connect multiple in multiple swing flap blades 10.

As a kind of highly preferred embodiment, as shown in Figure 1, the first end of active drive part 20 and swing flap blade 10 It is connected, slave link 30 is connected with the second end of swing flap blade 10.It is actively driven since the first end of each swing flap blade 10 has Moving part 20 connects, and the stability of the first end of swing flap blade 10 is available guarantee, but with the length of swing flap blade 10 Increase, more arrive that the second end of swing flap blade 10 its amplitude is bigger, therefore by the second of slave link 30 and swing flap blade 10 End is connected, and effectively the second end of swing flap blade 10 can be fixed to each other, and improves the stability of swing flap blade 10, reduces noise Generation.

As other optional embodiments, allow the first end and second end of slave link 30 and swing flap blade 10 it Between position be connected be also it is feasible, and can achieve improve swing flap blade 10 stability, reduce noise generate effect.

As shown in figure 4, in the technical scheme of this embodiment, the first end of swing flap blade 10 is provided with active interconnecting piece 11, active interconnecting piece 11 with active drive part 20 for being connected, the second end of swing flap blade 10 or the first end of swing flap blade 10 Position between second end is provided with from rotation connection 12, is used to be connected with slave link 30 from rotation connection 12.

Optionally, as shown in Figure 2 and Figure 4, active interconnecting piece 11 includes first relative to the protrusion setting of swing flap blade 10 Linking arm 111 and the first convex buckle 112 being arranged on the first linking arm 111, be formed on active drive part 20 with it is first convex 112 compatible first card holes 211 are detained, the first convex buckle 112 is caught in the first card hole 211 and can be 211 turns relative to the first card hole It is dynamic.When in use, active drive part 20 is mobile, and the first convex buckle 112 will be rotated relative to the first card hole 211, due to swing flap leaf Piece 10 can be rotatably set, and then allow the first card hole 211 to drive the first convex buckle 112 mobile, and then realize swing flap blade 10 Rotation.

As shown in Fig. 2, active drive part 20 includes being drivingly connected plate 21 and connecting with the active that plate 21 is connected is drivingly connected Bar 22, the first card hole 211, which is provided with, to be drivingly connected on plate 21, and active connecting rod 22 with motor driven for connecting.When in use, It makes motor driven active connecting rod 22 mobile, and then drives and be drivingly connected the movement of plate 21, realize the rotation of swing flap blade 10.It is optional , it is offered in active connecting rod 22 for the connecting sewing 221 with the cooperation of the drive shaft of motor.As shown in Fig. 2, the connecting sewing 221 when in use, and the crank installed with the drive shaft of motor matches.

It as shown in Figure 3 and Figure 4, in the technical scheme of this embodiment, include relative to swing flap blade from rotation connection 12 Second linking arm 121 of 10 protrusion settings and the second convex buckle 122 being arranged on the second linking arm 121, slave link 30 On be formed with second card hole 31 compatible with the second convex buckle 122, the second convex buckle 122 is caught in the second card hole 31 and can be relative to The rotation of second card hole 31.Swing flap blade 10 rotate when, the second convex buckle 122 rotate relative to the second card hole 31, and drive from Follower link 30 follows the moving direction of active drive part 20 mobile.

As shown in Figure 4 and Figure 6, swing flap blade 10 includes blade body 13 and the rotation axis that 13 both ends end of blade body is arranged in 14, rotation axis 14 is for being rotatably mounted swing flap blade 10, and the part of blade body 13 is in the thickness direction thereof relative to blade The other parts of body 13 are protruded to form air distributing structure 131.By the part of blade body 13 in the thickness direction thereof relative to blade The other parts of body 13 are protruded to form air distributing structure 131, in the case where air-out volume is constant, can be changed to wind field, Wind field is allowed to realize that stepped segmentation variation avoids cold wind from concentrating blow-through on human body to generate more uniform, soft air-flow Caused discomfort promotes the comfort that air conditioner uses.

In the technical scheme of this embodiment, as shown in Figure 5 and Figure 6, air distributing structure 131 is formed in blade body 13 Portion, most optimally to realize the segmentation variation of wind field ladder type.As other optional embodiments, air distributing structure can also be allowed 131 are formed in the position by close end of blade body 13.

As shown in figure 5, as a preferred embodiment, air distributing structure 131 in the width direction of blade body 13 from Air inlet direction gradually broadens to air-out direction.In this way, air distributing structure 131 can be allowed to guide air-flow, air-flow is diffused, is realized More uniformly, soft outlet air.

Through overtesting, as a preferred embodiment, in the technical scheme of this embodiment, air distributing structure 131 is in It is trapezoidal.As other optional embodiments, air distributing structure 131 or sector.

As shown in Figure 4 and Figure 5, more preferably, transition is formed between air distributing structure 131 and the other parts of blade body 13 Structure 132.Transition structure 132 can be used for guiding air-flow, and wind field is allowed to realize ladder type segmentation variation.Meanwhile when air distributing structure 131 When gradually broadening from air inlet direction to air-out direction in the width direction of blade body 13, transition structure 132 can also guide gas Stream, is diffused air-flow, realizes more uniform, soft outlet air.More preferably, transition structure 132 is in blade body 13 It gradually broadens in width direction from air inlet direction to air-out direction, such structure can be advantageously implemented the diffusion to air-flow.

In order to enable airflow is more smoothly, more preferably, transition structure 132 is curved face type.

As shown in figure 5, in the technical scheme of this embodiment, the outlet air outer rim of blade body 13 is in the thickness side of blade body 13 The upward arc for being projected as protruding towards air-out direction, such structure are diffused air-flow also for guidance air-flow, Realize more uniform, soft outlet air.

As shown in Figure 4 and Figure 5, optionally, relieve heat rib 133 is formed on blade body 13, relieve heat rib 133 is for dispersing Outlet air keeps outlet air softer, uniform.Preferably, relieve heat rib 133 is a plurality of, the setting of a plurality of interval of relieve heat rib 133, with The effect of enhancing dispersion outlet air.More preferably, a plurality of relieve heat rib 133 is parallel and is equally spacedly arranged.

As shown in figure 5, in the technical scheme of this embodiment, relieve heat rib 133 is arranged along the length direction of blade body 13. As other optional embodiments, relieve heat rib 133 can also tilt certain relative to the length direction of blade body 13 Angle.

As shown in fig. 7, the air conditioner includes above-mentioned swing flap blade assembly the present invention also provides a kind of air conditioner.It adopts With the air conditioner of above-mentioned swing flap blade assembly, swept by slave link 30 with multiple in multiple swing flap blades 10 or each Air blade 10 is respectively connected with, and multiple or each swing flap blades 10 in multiple swing flap blades 10 can be associated, be allowed driven The swing flap blade 10 that connector 30 connects can be fixed to each other, and improve the stability of swing flap blade 10.Even if in wind speed When larger, swing flap blade 10 is also not easy to shake, and then reduces the use noise of air conditioner.In addition, constant in air-out volume In the case where, wind field can be changed, allow wind field to realize stepped segmentation variation, to generate more uniform, soft Air-flow avoids cold wind from concentrating blow-through caused discomfort on human body, promotes the comfort that air conditioner uses.

It should be noted that technical solution of the present invention is particularly suitable for window air conditioner.

The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the embodiment of the present invention can have various modifications and variations.All within the spirits and principles of the present invention, made Any modification, equivalent substitution, improvement and etc. should all be included in the protection scope of the present invention.

Claims (21)

1. a kind of swing flap blade assembly characterized by comprising

Multiple swing flap blades (10), rotationally interval setting；

Active drive part (20) is connected, for driving each swing flap blade respectively at each swing flap blade (10) (10) it rotates；

Multiple or each swing flap blades (10) difference phases in slave link (30), with multiple swing flap blades (10) Even, for following the swing flap blade (10) of connection to move.

2. swing flap blade assembly according to claim 1, which is characterized in that the slave link (30) and each described Swing flap blade (10) is respectively connected with.

3. swing flap blade assembly according to claim 1, which is characterized in that the active drive part (20) and the swing flap The first end of blade (10) is connected, the slave link (30) be connected with the second end of the swing flap blade (10) or with it is described Position between the first end and second end of swing flap blade (10) is connected.

4. swing flap blade assembly according to claim 1, which is characterized in that the first end of the swing flap blade (10) is arranged Have active interconnecting piece (11), the active interconnecting piece (11) with the active drive part (20) for being connected, the swing flap blade (10) position between the first end and second end of second end or the swing flap blade (10) is provided with from rotation connection (12), It is described to be used to be connected with the slave link (30) from rotation connection (12).

5. swing flap blade assembly according to claim 4, which is characterized in that the active interconnecting piece (11) include relative to The first linking arm (111) of the swing flap blade (10) protrusion setting and be arranged on first linking arm (111) the One convex buckle (112) is formed with compatible first card hole with first convex buckle (112) on the active drive part (20) (211), first convex buckle (112) is caught in first card hole (211) and can turn relative to first card hole (211) It is dynamic.

6. swing flap blade assembly according to claim 5, which is characterized in that the active drive part (20) includes that driving connects Fishplate bar (21) and the active connecting rod (22) being connected with drive connection plate (21), first card hole (211) are provided with institute It states and is drivingly connected on plate (21), the active connecting rod (22) with motor driven for connecting.

7. swing flap blade assembly according to claim 6, which is characterized in that opened up on the active connecting rod (22) useful In the connecting sewing (221) with the cooperation of the drive shaft of motor.

8. swing flap blade assembly according to claim 5, which is characterized in that it is described from rotation connection (12) include relative to The second linking arm (121) of the swing flap blade (10) protrusion setting and be arranged on second linking arm (121) the Two convex buckles (122) are formed with compatible second card hole with second convex buckle (122) on the slave link (30) (31), second convex buckle (122) is caught in second card hole (31) and can rotate relative to second card hole (31).

9. swing flap blade assembly according to claim 1, which is characterized in that the swing flap blade (10) includes blade body (13) and setting is in the rotation axis (14) of the blade body (13) both ends end, and the rotation axis (14) is for being rotatably mounted The swing flap blade (10), the part of the blade body (13) in the thickness direction thereof relative to the blade body (13) other Part protrusion forms air distributing structure (131).

10. swing flap blade assembly according to claim 9, which is characterized in that the air distributing structure (131) is formed in described The middle part of blade body (13).

11. swing flap blade assembly according to claim 9, which is characterized in that the air distributing structure (131) is in the blade It gradually broadens in the width direction of body (13) from air inlet direction to air-out direction.

12. swing flap blade assembly according to claim 11, which is characterized in that the air distributing structure (131) is trapezoidal.

13. swing flap blade assembly according to claim 9, which is characterized in that the air distributing structure (131) and the blade Transition structure (132) are formed between the other parts of body (13).

14. swing flap blade assembly according to claim 13, which is characterized in that the transition structure (132) is curved face type.

15. swing flap blade assembly according to claim 13, which is characterized in that the transition structure (132) is in the leaf It gradually broadens in the width direction of sheet body (13) from air inlet direction to air-out direction.

16. swing flap blade assembly according to claim 9, which is characterized in that the outlet air outer rim of the blade body (13) exists Arc is projected as on the thickness direction of the blade body (13).

17. swing flap blade assembly according to claim 9, which is characterized in that be formed with relieve heat on the blade body (13) Rib (133), the relieve heat rib (133) is for dispersing outlet air.

18. swing flap blade assembly according to claim 17, which is characterized in that the relieve heat rib (133) is along the leaf The length direction of sheet body (13) is arranged.

19. swing flap blade assembly according to claim 17, which is characterized in that the relieve heat rib (133) be it is a plurality of, it is more The setting of the interval of relieve heat rib (133) described in item.

20. a kind of air conditioner, including swing flap blade assembly, which is characterized in that the swing flap blade assembly is claim 1 to 19 Any one of described in swing flap blade assembly.

21. air conditioner according to claim 20, which is characterized in that the air conditioner is window air conditioner.