CN108799160A - Wind turbine and air conditioner - Google Patents

Abstract

A kind of wind turbine of present invention offer and air conditioner, wind turbine include first shell, impeller and driving device；First shell includes spiral case and spiral case cover board, and spiral case cover board is fixedly connected with spiral case, and is collectively formed to accommodate the cavity of impeller, and the first mounting hole is provided on spiral case cover board；Driving device includes the stator with the second mounting hole, and stator is fixedly connected on the inner wall of spiral case；Impeller includes rotary shaft and the blade that is fixedly connected with rotary shaft, the both ends of rotary shaft are respectively first end and second end, and first end is threaded through in the first mounting hole, and second end is threaded through in the second mounting hole, driving device and rotation axis connection, to drive rotary shaft band movable vane piece to rotate.The present invention can reduce the rotary inertia of impeller, keep the operation of impeller more steady, thereby reduce operation noise, while also have the advantages that energy-efficient.

Description

Wind turbine and air conditioner

Technical field

The present invention relates to household electrical appliances manufacture technology field, more particularly to a kind of wind turbine and air conditioner.

Background technology

With the increasingly raising of science and technology being constantly progressive with people's living standard, air-conditioning has become people's daily life In one of most important household electrical appliance.

Present cabinet air-conditioner is mostly inner rotor motor, and motor volume is bigger than normal, and motor installation is all that one end is fixed on motor On mounting plate, one end of impeller is connected on motor, and the other end is hanging, since impeller weight is big, can make leaf in this way Wheel forms larger rotary inertia, generates larger noise.

Invention content

The main purpose of the present invention is to provide a kind of wind turbine and air conditioners, can reduce the rotary inertia of impeller, make leaf The operation of wheel is more steady, thereby reduces operation noise.

The present invention provides a kind of wind turbines, including first shell, impeller and driving device；

The first shell includes spiral case and spiral case cover board, and the spiral case cover board is fixedly connected with the spiral case, and common It is formed to accommodate the cavity of the impeller, the first mounting hole is provided on the spiral case cover board；

The driving device includes the stator with the second mounting hole, and the stator is fixedly connected on the inner wall of the spiral case On；

The impeller includes rotary shaft and the blade that is fixedly connected with the rotary shaft, and the both ends of the rotary shaft are respectively First end and second end, the first end are threaded through in first mounting hole, and the second end is threaded through second installation Kong Zhong, the driving device and the rotation axis connection, to drive the rotary shaft to drive the blade rotation.

More preferably, further include first bearing；

The first bearing is set in the first end of the rotary shaft, when the first end is threaded through described first When in mounting hole, the first bearing is located at the gap between the outer wall and the inner wall of first mounting hole of the first end In.

More preferably, further include the first shock-reducing sleeve；

First shock-reducing sleeve has the first endoporus, and first shock-reducing sleeve is threaded through in first mounting hole, described First end is threaded through in first endoporus, and is set in the first bearing in the first end and is located at the first end Outer wall and the inner wall of first endoporus between gap in.

More preferably, first shock-reducing sleeve is made of elastic material.

More preferably, further include second bearing；

The second bearing is set in the second end of the rotary shaft, when the second end is threaded through described second When in mounting hole, the second bearing is located at the gap between the outer wall and the inner wall of second mounting hole of the second end In.

More preferably, further include the second shock-reducing sleeve；

Second shock-reducing sleeve has the second endoporus, and second shock-reducing sleeve is threaded through in second mounting hole, described Second end is threaded through in second endoporus, and is set in the second bearing in the second end and is located at the second end Outer wall and the inner wall of second endoporus between gap in.

More preferably, second shock-reducing sleeve is made of elastic material.

More preferably, the driving device further includes rotor；

The rotor is fixedly connected in the rotary shaft, and corresponding with the stator, so that the stator and described Rotor collective effect drives the rotary shaft rotation.

More preferably, the outline shape of the stator is cylinder, and the rotor has cylindrical pockets, described fixed Son is located in the pockets, and the axis of the stator is overlapped with the axis of the pockets.

More preferably, the material of the rotor is magnetic material.

More preferably, the blade is fixedly connected on the rotor, to be fixedly connected on the rotation by the rotor On axis.

More preferably, the blade, the rotor and the rotary shaft are integrally formed making by the way of injection molding.

More preferably, further include the first attachment screw, the inner wall of spiral case cover board described in the spiral case face is bottom wall, described fixed It is provided with mounting portion on the outer wall of son, first through hole is provided on the mounting portion, is provided on the bottom wall and described first Corresponding first screw hole of through-hole, first attachment screw can pass through the first through hole, and be threaded in described the In one screw hole, the stator is fixed on the bottom wall.

More preferably, further include cushion blocking；

The cushion blocking is arranged between the mounting portion and the bottom wall, to buffer between the stator and the bottom wall Vibration.

More preferably, it is provided with positioning through hole on the cushion blocking, and is set in described first by the positioning through hole and connects It connects on screw.

More preferably, the outline shape of the stator is cylinder, and the quantity of the mounting portion is at least two, at least two The mounting portion is laid along the circumferential direction of the stator, and the quantity of first screw hole is equal with the quantity of the mounting portion, and with The first through hole on the mounting portion corresponds, the quantity of first attachment screw and the quantity phase of the mounting portion Deng and correspond.

More preferably, the stator is connect by conducting wire with external power supply, and line groove was provided on the bottom wall, described Conducting wire is at least partially disposed in the line groove excessively, and pressing plate is provided on the notch for crossing line groove, to described to being located at The conducting wire crossed in line groove is limited.

More preferably, it is provided with air inlet on the spiral case cover board, is provided with air-inlet grille on the air inlet, described first Mounting hole is arranged on the air-inlet grille.

More preferably, the air inlet periphery has a wind-guiding face of annular, and plane by first mounting hole axis is by institute It states wind-guiding face and is cut into arc.

More preferably, the air-inlet grille includes several ribs, and the rib is from the center of the air-inlet grille described in The edge of style grid extends along camber line；

The rib is less than 3mm in the width perpendicular to first mounting hole axis direction, and/or along described first The width of mounting hole axis extending direction is more than 5mm.

On the one hand the present invention, which has, provides a kind of air conditioner, include the wind turbine of second shell and any of the above technical characteristic, institute It states wind turbine to be arranged in the inside of the second shell, and is detachably connected in the second shell.

More preferably, further include the second attachment screw, the second shell is with bottom plate；

It is provided with mounting plate on the outer wall of first shell described in the wind turbine, it is logical that second is provided on the mounting plate Hole is provided with the second screw hole on the bottom plate, and second attachment screw can pass through second through-hole, and be threaded in In second screw hole, the wind turbine is fixed on the bottom plate.

More preferably, reinforcement block is provided on the bottom plate, second screw hole is arranged on the reinforcement block.

More preferably, the quantity of the mounting plate is at least two, the number of the quantity and the mounting plate of second screw hole It measures equal, and is corresponded with second through-hole on the mounting plate, second attachment screw and the mounting plate Quantity is equal and corresponds.

More preferably, further include third attachment screw, the second shell includes side plate, and the side plate is connected by the third Screw is connect to be connected on the outer wall of the first shell.

More preferably, it is provided with mounting post on the outer wall of the first shell, third screw hole, institute are provided in the mounting post It states and is provided with third through-hole on side plate, the third screw can pass through the third through-hole and be threaded in the third spiral shell In hole.

More preferably, the quantity of the side plate is two, and two side plates are respectively provided at the both sides of the wind turbine.

The wind turbine of the offer of the present invention, the both ends using the rotary shaft are respectively first end and second end, and described first End is threaded through in first mounting hole, and the second end is threaded through the technical solution in second mounting hole, can reduce The rotary inertia of impeller keeps the operation of impeller more steady, thereby reduces operation noise.

Description of the drawings

Attached drawing described herein is used to provide further understanding of the present invention, and constitutes the part of the present invention, this hair Bright illustrative embodiments and their description are not constituted improper limitations of the present invention for explaining the present invention.In the accompanying drawings：

Fig. 1 is the wind turbine diagrammatic cross-section in embodiment one；

Fig. 2 is the portions the A enlarged diagram in Fig. 1；

Fig. 3 is the portions the B enlarged diagram in Fig. 1；

Fig. 4 is the portions the C enlarged diagram in Fig. 1；

Fig. 5 is the spiral case schematic diagram in Fig. 1；

Fig. 6 is the spiral case cover plate schematic diagram in Fig. 1；

Fig. 7 is the air conditioner structure schematic diagram in embodiment two；

Fig. 8 is the decomposition diagram of Fig. 7.

In figure：1, first shell；11, spiral case；111, bottom wall；112, the first screw hole；113, line groove is crossed；114, pressing plate； 115, mounting plate；116, the second through-hole；12, spiral case cover board；121, the first mounting hole；122, air-inlet grille；123, wind-guiding face； 124, rib；125, mounting post；126, third screw hole；2, impeller；21, rotary shaft；211, first end；212, second end；22, leaf Piece；23, first bearing；24, the first shock-reducing sleeve；241, the first endoporus；25, second bearing；26, the second shock-reducing sleeve；261, second Endoporus；3, driving device；31, stator；311, the second mounting hole；312, mounting portion；313, first through hole；314, cushion blocking；32, Rotor；321, pockets；33, the first attachment screw；4, second shell；41, bottom plate；411, the second screw hole；42, side plate； 421, third through-hole；5, wind turbine.

Specific implementation mode

To make the object, technical solutions and advantages of the present invention clearer, below in conjunction with the specific embodiment of the invention and Technical solution of the present invention is clearly and completely described in corresponding attached drawing.Obviously, described embodiment is only the present invention one Section Example, instead of all the embodiments.Based on the embodiments of the present invention, those of ordinary skill in the art are not doing Go out the every other embodiment obtained under the premise of creative work, shall fall within the protection scope of the present invention.

It should be noted that term " first " in description and claims of this specification and above-mentioned attached drawing, " Two " etc. be for distinguishing similar object, without being used to describe specific sequence or precedence.It should be appreciated that using in this way Data can be interchanged in the appropriate case, so that the embodiment of the present invention described herein can be in addition to illustrating herein Or the sequence other than those of description is implemented.

Embodiment one

As shown in Figure 1, a kind of wind turbine, including first shell 1, impeller 2 and driving device 3.First shell 1 includes spiral case 11 With spiral case cover board 12, spiral case cover board 12 is fixedly connected with spiral case 11, and is collectively formed to accommodate the cavity of impeller 2, spiral case lid The first mounting hole 121 is provided on plate 12.Driving device 3 includes the stator 31 with the second mounting hole 311, and stator 31, which is fixed, to be connected It is connected on the inner wall of spiral case 11.Impeller 2 includes rotary shaft 21 and the blade 22 that is fixedly connected with rotary shaft 21, and the two of rotary shaft 21 End is respectively first end 211 and second end 212, and first end 211 is threaded through in the first mounting hole 121, and second end 212 is threaded through the In two mounting holes 311, driving device 3 is connect with rotary shaft 21, to drive rotary shaft 21 to be rotated with movable vane piece 22.Using in this way Technical solution, can be by spiral case cover board 12 and stator 31 to 212 two position branch of first end 211 and second end of rotary shaft 21 Support, solves the problems, such as that impeller one end is hanging in the prior art, can reduce the rotary inertia of impeller, makes the operation of impeller in this way It is more steady, operation noise is thereby reduced, while also having the advantages that energy-efficient.

Further, as shown in Figure 1, driving device 3 further includes rotor 32, rotor 32 is fixedly connected in rotary shaft 21, And it is corresponding with stator 31, so that stator 31 and 32 collective effect of rotor driving rotary shaft 21 rotate.The wherein material of rotor 32 For magnetic material (such as ferromagnetic material), rotary shaft can be driven by electromagnetism power drive rotor 32 when stator 31 is powered in this way 21 rotations.In actual fabrication, as shown in Figure 1, the outline shape of stator 31 is cylinder, rotor 32 has cylindrical receiving Groove 321, stator 31 is located in pockets 321, and the axis of stator 31 is overlapped with the axis of pockets 321.In this way The peripheral hardware design of rotor 32 is realized, and then impeller 2 is made to suspend by the magneticaction between stator 31 and rotor 32, by peripheral hardware 32 impeller 2 of rotor rotation, reduce energy loss, increase transmission efficiency.When actual fabrication, blade 22 can be fixedly connected On rotor 32, to be fixedly connected in rotary shaft 21 by rotor 32.Specifically, blade 22, rotor 32 and rotary shaft 21 can Making is integrally formed by the way of injection molding, it is not limited to this, can also can realize goal of the invention using any other Scheme.

Specifically, as shown in Fig. 2, further including first bearing 23, first bearing 23 is set in the first end 211 of rotary shaft 21 On, when first end 211 is threaded through in the first mounting hole 121, first bearing 23 is located at outer wall and the first installation of first end 211 In gap between the inner wall in hole 121.In this way in fan operation, rotary shaft 21 can be by first bearing 23 in the first mounting hole It is rotated in 121, the resistance of motion of the rotary shaft 21 in the first mounting hole 121 can be reduced in this way, make the rotation of rotary shaft 21 more Add smooth.Further, as shown in Fig. 2, further including the first shock-reducing sleeve 24, the first shock-reducing sleeve 24 has the first endoporus 241, and first Shock-reducing sleeve 24 is threaded through in the first mounting hole 121, and first end 211 is threaded through in the first endoporus 241, and is set in first end First bearing 23 on 211 is located in the gap between the outer wall of first end 211 and the inner wall of the first endoporus 241.Wherein, first Shock-reducing sleeve 24 is made of elastic material (such as rubber).Shaking for first end 211 can be buffered by the first shock-reducing sleeve 24 in this way It is dynamic, you can also to reduce vibrating noise to reduce wind turbine operating load.

Specifically, as shown in figure 3, further including second bearing 25, second bearing 25 is set in the second end 212 of rotary shaft 21 On, when second end 212 is threaded through in the second mounting hole 311, second bearing 25 is located at outer wall and the second installation of second end 212 In gap between the inner wall in hole 311.In this way in fan operation, rotary shaft 21 can be by second bearing 25 in the second mounting hole It is rotated in 311, the resistance of motion of the rotary shaft 21 in the second mounting hole 311 can be reduced in this way, make the rotation of rotary shaft 21 more Add smooth.Further, as shown in figure 3, further including the second shock-reducing sleeve 26, the second shock-reducing sleeve 26 has the second endoporus 261, and second Shock-reducing sleeve 26 is threaded through in the second mounting hole 311, and second end 212 is threaded through in the second endoporus 261, and is set in second end Second bearing 25 on 212 is located in the gap between the outer wall of second end 212 and the inner wall of the second endoporus 261.Wherein, second Shock-reducing sleeve 26 is made of elastic material (such as rubber).Shaking for second end 212 can be buffered by the second shock-reducing sleeve 26 in this way It is dynamic, you can also to reduce vibrating noise to reduce wind turbine operating load.

The concrete mode that stator 31 is fixedly connected on the inner wall of spiral case 11 can be as shown in figure 4, further include the first connection spiral shell The inner wall of nail 33,11 face spiral case cover board 12 of spiral case is bottom wall 111, and mounting portion 312, mounting portion are provided on the outer wall of stator 31 It is provided with first through hole 313 on 312, first screw hole 112 corresponding with first through hole 313 is provided on bottom wall 111, first connects First through hole 313 can be passed through by connecing screw 33, and is threaded in the first screw hole 112, and stator 31 is fixed on bottom wall 111 On, it is convenient for disassembling and installing stator 31 in this way, specifically, the outline shape of stator 31 is cylinder, mounting portion 312 Quantity is at least two, and at least two mounting portions 312 lay (can be uniformly distributed) along the circumferential of stator 31, the first screw hole 112 quantity is equal with the quantity of mounting portion 312, and is corresponded with the first through hole 313 on mounting portion 312, the first connection The quantity of screw 33 is equal with the quantity of mounting portion 312 and corresponds.At least two first attachment screws can be passed through in this way 33 are fixed on stator 31 on the bottom wall 111 of spiral case cover board 12, and then ensure that the fastness that stator 31 is installed.

Preferably, as shown in figure 4, further including cushion blocking 314, the setting of cushion blocking 314 mounting portion 312 and bottom wall 111 it Between, to buffer the vibration between stator 31 and bottom wall 111.Wherein elastic material (such as rubber) making can be used in cushion blocking 314. Stator 31 and the bottom wall 111 of spiral case 11 can be avoided to be in direct contact in this way, can effectively play damping and reduce the work of noise With.Further, it is provided with positioning through hole (not shown) on cushion blocking 314, and the first connection is set in by positioning through hole On screw 33, to ensure the stability of the installation of cushion blocking 314.

As a kind of embodiment, as shown in figure 5, stator 31 is connect by conducting wire (not shown) with external power supply, Line groove 113 was provided on bottom wall 111, conducting wire was at least partially disposed in line groove 113, crossed the notch of line groove 113 On be provided with pressing plate 114, to positioned at conducting wire in line groove 113 limit.It can prevent conducting wire from tilting shadow in this way It rings impeller 2 to operate, improves safety.

As a kind of embodiment, as shown in fig. 6, being provided with air inlet (not shown) on spiral case cover board 12, enter the wind Air-inlet grille 122 is provided on mouthful, the first mounting hole 121 is arranged on air-inlet grille 122.Further, air inlet periphery has The wind-guiding face 123 for having annular, arc is cut by the plane of 121 axis of the first mounting hole by wind-guiding face 123.Make air that can pass through The guiding function of wind-guiding face 123 enters by air inlet the inside of first shell 1, need not water conservancy diversion be arranged on air inlet again Circle, condition cost of manufacture.Specifically, air-inlet grille 122 includes several ribs 124, and rib 124 is from air-inlet grille 122 The heart extends towards the edge of style grid, along camber line, and wherein rib 124 is in the width perpendicular to 121 axis direction of the first mounting hole It is more than 5mm less than 3mm, and/or in the width along 121 axis extending direction of the first mounting hole.

Embodiment two

As shown in Figure 7,8, a kind of air conditioner, including the wind turbine 5 described in second shell 4 and embodiment one, wind turbine 5 are set It sets in the inside of second shell 4, and is detachably connected in second shell 4.

Specifically, further include the second attachment screw (not shown), as shown in Figure 7,8, second shell 4 has bottom plate 41, It is provided with mounting plate 115 on the outer wall of first shell 1 (such as spiral case 11) in wind turbine 5, the second through-hole is provided on mounting plate 115 116, the second screw hole 411 is provided on bottom plate 41, the second attachment screw can pass through the second through-hole 116, and be threaded in the In two screw holes 411, wind turbine 5 is fixed on bottom plate 41.It can be convenient for the disassembly and installation of wind turbine 5 in this way.Further, bottom Reinforcement block (not shown) is provided on plate 41, the second screw hole 411 is arranged on reinforcement block.It can not only make air inlet more in this way It is securely attached in the second screw hole 411, while the intensity of bottom plate 41 can also be improved, prevent it in the effect of 5 gravity of wind turbine Under deform.

More preferably, the quantity of mounting plate 115 is at least two, the quantity of the second screw hole 411 and the quantity phase of mounting plate 115 Deng, and corresponded with the second through-hole 116 on mounting plate 115, the second attachment screw is equal with the quantity of mounting plate 115 and one One corresponds to.Wind turbine 5 can be fixed on bottom plate 41 by least two second attachment screws in this way, makes the installation of wind turbine 5 more Add solid and reliable.

Further include third attachment screw (not shown), as shown in Figure 7,8, second shell 4 as a kind of embodiment Including side plate 42, side plate 42 is connected to by third attachment screw on the outer wall of first shell 1.5 offside of wind turbine can be passed through in this way Plate 42 is supported, as shown in the figure when improving the stability of side plate 42, then specifically make, and the quantity of side plate 42 is two, Two side plates 42 are respectively provided at the both sides of wind turbine 5.

Specifically, it is provided with mounting post 125 on the outer wall of first shell 1 (such as spiral case cover board 12), is set in mounting post 125 It is equipped with third screw hole 126, third through-hole 421 is provided on side plate 42, third screw can pass through third through-hole 421 and screw thread connects It is connected in third screw hole 126.

Above example enables the invention to reduce the rotary inertia of impeller, keeps the operation of impeller more steady, and then drops Low operation noise, while also having the advantages that energy-efficient.

Example the above is only the implementation of the present invention is not intended to restrict the invention, for those skilled in the art For member, the invention may be variously modified and varied.Any modification made by all within the spirits and principles of the present invention, Equivalent replacement, improvement etc., should be included within scope of the presently claimed invention.

Claims (27)

1. a kind of wind turbine, it is characterised in that：

Including first shell (1), impeller (2) and driving device (3)；

The first shell (1) includes spiral case (11) and spiral case cover board (12), the spiral case cover board (12) and the spiral case (11) It is fixedly connected, and is collectively formed to accommodate the cavity of the impeller (2), the first installation is provided on the spiral case cover board (12) Hole (121)；

The driving device (3) includes the stator (31) with the second mounting hole (311), and the stator (31) is fixedly connected on institute On the inner wall for stating spiral case (11)；

The impeller (2) includes rotary shaft (21) and the blade (22) being fixedly connected with the rotary shaft (21), the rotary shaft (21) both ends are respectively first end (211) and second end (212), and the first end (211) is threaded through first mounting hole (121) in, the second end (212) is threaded through in second mounting hole (311), the driving device (3) and the rotation Axis (21) connects, to drive the rotary shaft (21) to drive blade (22) rotation.

2. wind turbine according to claim 1, it is characterised in that：

Further include first bearing (23)；

The first bearing (23) is set in the first end (211) of the rotary shaft (21), when the first end (211) When being threaded through in first mounting hole (121), the first bearing (23) is located at the outer wall of the first end (211) and described In gap between the inner wall of first mounting hole (121).

3. obtaining wind turbine according to claim 2, it is characterised in that：

Further include the first shock-reducing sleeve (24)；

There is first shock-reducing sleeve (24) the first endoporus (241), first shock-reducing sleeve (24) to be threaded through first installation In hole (121), the first end (211) is threaded through in first endoporus (241), and is set in the first end (211) On the first bearing (23) be located between the outer wall and the inner wall of first endoporus (241) of the first end (211) In gap.

4. obtaining wind turbine according to claim 3, it is characterised in that：

First shock-reducing sleeve (24) is made of elastic material.

5. wind turbine according to claim 1, it is characterised in that：

Further include second bearing (25)；

The second bearing (25) is set in the second end (212) of the rotary shaft (21), when the second end (212) When being threaded through in second mounting hole (311), the second bearing (25) is located at the outer wall of the second end (212) and described In gap between the inner wall of second mounting hole (311).

6. wind turbine according to claim 5, it is characterised in that：

Further include the second shock-reducing sleeve (26)；

There is second shock-reducing sleeve (26) the second endoporus (261), second shock-reducing sleeve (26) to be threaded through second installation In hole (311), the second end (212) is threaded through in second endoporus (261), and is set in the second end (212) On the second bearing (25) be located between the outer wall and the inner wall of second endoporus (261) of the second end (212) In gap.

7. wind turbine according to claim 6, it is characterised in that：

Second shock-reducing sleeve (26) is made of elastic material.

8. according to the wind turbine described in claim 1 to 7 any one, it is characterised in that：

The driving device (3) further includes rotor (32)；

The rotor (32) is fixedly connected in the rotary shaft (21), and corresponding with the stator (31), so that described fixed Sub (31) and the rotor (32) collective effect drives rotary shaft (21) rotation.

9. wind turbine according to claim 8, it is characterised in that：

The outline shape of the stator (31) is cylinder, and the rotor (32) has cylindrical pockets (321), described Stator (31) is located in the pockets (321), and the axis of the axis of the stator (31) and the pockets (321) Line overlaps.

10. wind turbine according to claim 9, it is characterised in that：

The material of the rotor (32) is magnetic material.

11. wind turbine according to claim 8, it is characterised in that：

The blade (22) is fixedly connected on the rotor (32), to be fixedly connected on the rotation by the rotor (32) On axis (21).

12. wind turbine according to claim 11, it is characterised in that：

The blade (22), the rotor (32) and the rotary shaft (21) are integrally formed making by the way of injection molding.

13. according to the wind turbine described in claim 1 to 7 any one, it is characterised in that：

Further include the first attachment screw (33), the inner wall of spiral case cover board (12) described in spiral case (11) face is bottom wall (111), It is provided with mounting portion (312) on the outer wall of the stator (31), first through hole (313), institute are provided on the mounting portion (312) It states and is provided with the first screw hole (112) corresponding with the first through hole (313), first attachment screw on bottom wall (111) (33) first through hole (313) can be passed through, and is threaded in first screw hole (112), by the stator (31) it is fixed on the bottom wall (111).

14. wind turbine according to claim 13, it is characterised in that：

Further include cushion blocking (314)；

The cushion blocking (314) is arranged between the mounting portion (312) and the bottom wall (111), to buffer the stator (31) vibration between the bottom wall (111).

15. wind turbine according to claim 14, it is characterised in that：

It is provided with positioning through hole on the cushion blocking (314), and first attachment screw is set in by the positioning through hole (33) on.

16. wind turbine according to claim 13, it is characterised in that：

The outline shape of the stator (31) is cylinder, and the quantity of the mounting portion (312) is at least two, at least two institutes The circumferential direction that mounting portion (312) is stated along the stator (31) is laid, quantity and the mounting portion of first screw hole (112) (312) quantity is equal, and is corresponded with the first through hole (313) on the mounting portion (312), first connection The quantity of screw (33) is equal with the quantity of the mounting portion (312) and corresponds.

17. wind turbine according to claim 13, it is characterised in that：

The stator (31) is connect by conducting wire with external power supply, and line groove (113) was provided on the bottom wall (111), The conducting wire is at least partially disposed in the line groove (113) excessively, and pressing plate is provided on the notch for crossing line groove (113) (114), being limited to being located at the conducting wire crossed in line groove (113).

18. according to the wind turbine described in claim 1 to 7 any one, it is characterised in that：

It is provided with air inlet on the spiral case cover board (12), air-inlet grille (122), first peace are provided on the air inlet Hole (121) are filled to be arranged on the air-inlet grille (122).

19. wind turbine according to claim 18, it is characterised in that：

The air inlet periphery has the wind-guiding face (123) of annular, by the plane of the first mounting hole (121) axis by institute It states wind-guiding face (123) and is cut into arc.

20. wind turbine according to claim 18, it is characterised in that：

The air-inlet grille (122) includes several ribs (124), center of the rib (124) from the air-inlet grille (122) Extend towards the edge of the style grid, along camber line；

The rib (124) is less than 3mm in the width perpendicular to the first mounting hole (121) axis direction, and/or along institute The width for stating the first mounting hole (121) axis extending direction is more than 5mm.

21. a kind of air conditioner, it is characterised in that：

Wind turbine (5) including second shell (4) and as described in claim 1 to 20 any one, the wind turbine (5) are arranged in institute The inside of second shell (4) is stated, and is detachably connected in the second shell (4).

22. air conditioner according to claim 21, it is characterised in that：

Further include the second attachment screw, the second shell (4) has bottom plate (41)；

It is provided with mounting plate (115) on the outer wall of first shell (1) described in the wind turbine (5), is set on the mounting plate (115) It is equipped with the second through-hole (116), the second screw hole (411) is provided on the bottom plate (41), second attachment screw can pass through Second through-hole (116), and be threaded in second screw hole (411), the wind turbine (5) is fixed on the bottom On plate (41).

23. air conditioner according to claim 22, it is characterised in that：

Reinforcement block is provided on the bottom plate (41), second screw hole (411) is arranged on the reinforcement block.

24. air conditioner according to claim 22, it is characterised in that：

The quantity of the mounting plate (115) is at least two, quantity and the mounting plate (115) of second screw hole (411) Quantity it is equal, and on the mounting plate (115) second through-hole (116) correspond, second attachment screw It is equal with the quantity of the mounting plate (115) and correspond.

25. according to the air conditioner described in claim 21 to 24 any one, it is characterised in that：

Further include third attachment screw, the second shell (4) includes side plate (42), and the side plate (42) is connected by the third Screw is connect to be connected on the outer wall of the first shell (1).

26. air conditioner according to claim 25, it is characterised in that：

It is provided with mounting post (125) on the outer wall of the first shell (1), third screw hole is provided on the mounting post (125) (126), third through-hole (421) is provided on the side plate (42), the third screw can pass through the third through-hole (421) And it is threaded in the third screw hole (126).

27. air conditioner according to claim 25, it is characterised in that：

The quantity of the side plate (42) is two, and two side plates (42) are respectively provided at the both sides of the wind turbine (5).