CN110159571A - Oscillating mechanism and fan with it - Google Patents

Abstract

The present invention provides a kind of oscillating mechanism and with its fan, oscillating mechanism with the head of fan for connecting, and to drive head to rotate around predetermined axial line, oscillating mechanism includes the first component, is connect with head to drive head to rotate；Driving assembly, driving assembly are at least partially seated in the pedestal of fan, are connect with the first component so that at least partly drive first component of driving assembly rotates；Second component is provided with installation cavity on the first component, and second component is at least partly threaded through in installation cavity and connect with the first component, to support the first component when the first component rotates；Anti-skidding component, it is arranged between the first component and driving assembly, anti-skidding component is all connected with the first component and driving assembly, anti-skidding component is at least partly telescopically arranged, so that driving assembly drives the first component to rotate by anti-skidding component, the driving assembly to solve the problems, such as fan in the prior art is poor to the driving effect of head.

Description

Oscillating mechanism and fan with it

Technical field

The present invention relates to mechanical design fields, in particular to a kind of oscillating mechanism and with its fan.

Background technique

Currently, electric fan oscillating structure in the market is predominantly located on head, on the one hand when the head of fan is in non- Horizontality, the center of gravity of head will not be in same level when fan head swinging, and due to the influence of gravity, synchronous motor will at this time By the effect of alternate stress, the service life of synchronous motor will be greatly reduced under the influence of alternate stress.

On the other hand, the panning angle of electric fan and speed of shaking the head are non-adjustable, influence the real experiences of user, and synchronous Motor and link mechanism occupy very large space in head section, so that head section volume is loose, influence whole aesthetics.

In addition, existing head is connect by link mechanism with driving assembly, driving assembly drives link mechanism rotation In the process, relative motion easily occurs between link mechanism for driving assembly, i.e., between link mechanism and driving assembly frictional force compared with It is small and skid, and then cause driving assembly poor to the driving effect of head, influence user experience.

Summary of the invention

It is in the prior art to solve the main purpose of the present invention is to provide a kind of oscillating mechanism and with its fan The poor problem of driving effect of the driving assembly of fan to head.

To achieve the goals above, according to an aspect of the invention, there is provided a kind of oscillating mechanism, for fan Head connection, to drive head to rotate around predetermined axial line, oscillating mechanism includes: the first component, and the first component is connect with head, with Drive head rotation；Driving assembly, driving assembly are at least partially seated in the pedestal of fan, driving assembly and the first component Connection, so that at least partly drive first component of driving assembly rotates；Second component is provided with installation cavity on the first component, Installation cavity extends along the extending direction of the first component, and second component is at least partly threaded through in installation cavity and connects with the first component It connects, to support the first component when the first component rotates；Anti-skidding component, anti-skidding component setting the first component and driving assembly it Between, anti-skidding component is all connected with the first component and driving assembly, and anti-skidding component is at least partly telescopically arranged, so that driving Component drives first component rotation by anti-skidding component.

Further, the bottom of the first component is provided with chassis, and the first component is clamped by chassis and driving assembly, anti-skidding Component is at least partly connected on chassis.

Further, driving assembly includes driving member, and accommodation space, at least partly installation on chassis are provided on driving member In accommodation space；Stopper section is provided on the side wall of accommodation space, anti-skidding component is at least partly abutted with stopper section.

Further, stopper section includes non-slip groove, and anti-skidding component is at least partly connected in non-slip groove.

Further, driving assembly includes driving member, and the first component is connect with driving member, oscillating mechanism further include: first Fastener, the first fastener are at least partially disposed on driving member, so that the first component is clamped by the first fastener and driving member.

Further, the first fastener is multiple, and multiple first fasteners are arranged at intervals around predetermined axial line.

Further, driving assembly includes driving member, and hole, at least partly set of the first component are provided on driving member It is located in through hole, to be connect with driving member.

Further, the second fastener is provided on the outer wall of through hole, the second fastener extends along the axis direction of through hole, So that the first component is clamped by the second fastener and driving member.

Further, the second fastener is multiple, and multiple second fasteners are arranged at intervals around the axis of through hole.

Further, anti-skidding component includes: stop part, and the first end of stop part is abutted with chassis, the second end of stop part It is abutted with stopper section, to increase the frictional force between chassis and driving member.

Further, mounting groove is provided on chassis, stop part is at least partially seated in mounting groove.

Further, anti-skidding component further includes；Compressed spring, compressed spring are at least partially seated in mounting groove, pressure The first end of contracting spring is abutted with the groove bottom of mounting groove, and the second end and stop part of compressed spring are supported far from one end of stopper section It connects.

Further, stop part includes: the first noumenon, and the end of the first noumenon is abutted with stopper section；Second ontology, second Ontology is connect with the first noumenon, so that the first noumenon and the second ontology constitute step structure, compressed spring is at least partly arranged On the second ontology, so that compressed spring is connected on the step end face of step structure.

According to another aspect of the present invention, a kind of fan, including pedestal and oscillating mechanism are provided, oscillating mechanism is at least It is partially installed in pedestal, oscillating mechanism is the oscillating mechanism of above-described embodiment.

It applying the technical scheme of the present invention, the oscillating mechanism provided according to the present invention is connect for the head with fan, with Head is driven to rotate around predetermined axial line, oscillating mechanism includes the first component, second component, driving assembly and anti-skidding component, and first Component is connect with head, and to drive head to rotate, driving assembly is at least partially seated in the pedestal of fan, driving assembly with First component connection, so that at least partly drive first component of driving assembly rotates, is provided with installation cavity on the first component, pacify It behave affectedly along the extending direction extension of the first component, second component is at least partly threaded through in installation cavity and connects with the first component It connects, to support the first component when the first component rotates, anti-skidding component is arranged between the first component and driving assembly, and anti-skidding group Part is all connected with the first component and driving assembly, and anti-skidding component is at least partly telescopically arranged, so that driving assembly passes through Anti-skidding component drives first component rotation, and structure is simply and readily realized, driving assembly is mounted in pedestal, alleviates head Weight, while by the way that anti-skidding component is arranged, that driving assembly can be made to connect with the first component is more stable, solves existing The poor problem of driving effect of the driving assembly to head in technology.

Detailed description of the invention

The accompanying drawings constituting a part of this application is used to provide further understanding of the present invention, and of the invention shows Examples and descriptions thereof are used to explain the present invention for meaning property, does not constitute improper limitations of the present invention.In the accompanying drawings:

Fig. 1 shows the structural schematic diagram of the embodiment of oscillating mechanism according to the present invention；And

Fig. 2 shows the explosive views of the embodiment of oscillating mechanism according to the present invention；

Fig. 3 shows the structural schematic diagram at the first visual angle of the first component according to the present invention；

Fig. 4 shows the structural schematic diagram at the second visual angle of the first component according to the present invention；

Fig. 5 shows the structural schematic diagram of the embodiment of driving member according to the present invention；

Fig. 6 shows the volume structural schematic diagram of the embodiment of stop part according to the present invention；

Fig. 7 shows the structural schematic diagram of the embodiment of compressed spring according to the present invention；

Fig. 8 shows the structural schematic diagram of the embodiment of the first bolster according to the present invention；

Fig. 9 shows the structural schematic diagram of the embodiment of the second bolster according to the present invention；

Figure 10 shows the structural schematic diagram of the embodiment of third member according to the present invention；

Figure 11 shows the structural schematic diagram of the embodiment of second component according to the present invention；

Figure 12 shows the structural schematic diagram of the embodiment of mounting base according to the present invention；

Figure 13 shows the structural schematic diagram of the embodiment of support base according to the present invention；

Figure 14 shows the structural schematic diagram of the embodiment of fan according to the present invention.

Wherein, the above drawings include the following reference numerals:

1, head；2, pedestal；3, mounting base；4, support base；43, mounting portion；10, the first component；11, positioning rib； 101, installation cavity；12, chassis；121, the first thread passing port；105, mounting groove；

20, driving assembly；21, driving member；210, accommodation space；211, transmission slot；213, the second thread passing port；214, lead to Via hole；23, stopper section；230, non-slip groove；24, the first fastener；25, the second fastener；

30, Buffer Unit；31, the first bolster；310, connecting hole；311, through hole；312, third thread passing port；32, Two bolsters；320, clip-connecting rod；321, evacuation opening；322, positioning protrusion；323, the 4th thread passing port；40, third member；401, Through-hole；50, bottom plate；60, anti-skidding component；61, stop part；610, the first noumenon；611, the second ontology；62, compressed spring；70, Second component；71, first body；72, second body；80, bearing assembly.

Specific embodiment

It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase Mutually combination.The present invention will be described in detail below with reference to the accompanying drawings and embodiments.

The present invention provides a kind of oscillating mechanisms, please refer to Fig. 1 to Figure 14, connect for the head 1 with fan, with driving Head 1 is rotated around predetermined axial line, and oscillating mechanism includes: the first component 10, and the first component 10 is connect with head 1, to drive head 1 Rotation；Driving assembly 20, in the pedestal 2 for being at least partially seated at fan of driving assembly 20, driving assembly 20 and the first component 10 connections, so that at least partly drive first component 10 of driving assembly 20 rotates；Second component 70 is arranged on the first component 10 There is installation cavity 101, installation cavity 101 extends along the extending direction of the first component 10, and second component 70 is at least partly threaded through peace It behave affectedly in 101 and is connect with the first component 10, to support the first component 10 when the first component 10 rotates；Anti-skidding component 60 is prevented Sliding component 60 is arranged between the first component 10 and driving assembly 20, and anti-skidding component 60 and the first component 10 and driving assembly 20 are Connection, anti-skidding component 60 are at least partly telescopically arranged, so that driving assembly 20 drives first by anti-skidding component 60 Part 10 rotates.

The oscillating mechanism provided according to the present invention is connect for the head 1 with fan, to drive head 1 around predetermined axial line Rotation, oscillating mechanism include the first component 10, second component 70, driving assembly 20 and anti-skidding component 60, the first component 10 and machine First 1 connection, to drive head 1 to rotate, in the pedestal 2 for being at least partially seated at fan of driving assembly 20, driving assembly 20 with The first component 10 connects, so that at least partly drive first component 10 of driving assembly 20 rotates, is provided on the first component 10 Installation cavity 101, installation cavity 101 extend along the extending direction of the first component 10, and second component 70 is at least partly threaded through installation It is connect in chamber 101 and with the first component 10, to support the first component 10 when the first component 10 rotates, the setting of anti-skidding component 60 exists Between the first component 10 and driving assembly 20, anti-skidding component 60 is all connected with the first component 10 and driving assembly 20, anti-skidding component 60 are at least partly telescopically arranged, so that driving assembly 20 drives the first component 10 to rotate by anti-skidding component 60, structure It simply and readily realizes, driving assembly 20 is mounted in pedestal 2, alleviate the weight of head 1, while passing through anti-skidding group of setting It is more stable that part 60 can be such that driving assembly 20 connect with the first component 10, solves driving assembly in the prior art to machine The poor problem of the driving effect of head.

Specifically, as shown in Fig. 3 to Fig. 7, the bottom of the first component 10 is provided with chassis 12, and the first component 10 passes through chassis 12 are clamped with driving assembly 20, and anti-skidding component 60 is at least partly connected on chassis 12.

It is connect for the ease of the first component 10 with driving assembly 20, driving assembly 20 includes driving member 21, on driving member 21 It is provided with accommodation space 210, chassis 12 is at least partially seated in accommodation space 210；It is arranged on the side wall of accommodation space 210 There is stopper section 23, anti-skidding component 60 is at least partly abutted with stopper section 23.

Preferably, stopper section 23 includes non-slip groove 230, and anti-skidding component 60 is at least partly connected in non-slip groove 230, with When driving assembly 20 drives the first component 10 to rotate, by the mutual backstop of cell wall of stop part 61 and non-slip groove 230, so as to drive Dynamic component 20 is rotated synchronously with the first component 10.

In embodiment provided by the invention, driving assembly 20 includes driving member 21, and the first component 10 and driving member 21 connect It connects, oscillating mechanism further include: the first fastener 24, the first fastener 24 are at least partially disposed on driving member 21, so that first Part 10 is clamped by the first fastener 24 with driving member 21, it is preferable that the first fastener 24 extends along the vertical direction, and the first fastener 24 is Multiple, multiple first fasteners 24 are arranged at intervals around predetermined axial line, to make after the first component 10 is connect with driving member 21 Multiple first fasteners 24 are around the first component 10；Specifically, the first fastener 24 is plate muscle.

In another embodiment provided by the invention, the first fastener 24 is at least partially disposed on chassis 12, the first card Part 24 is set as multiple, and axis of multiple first fasteners 24 around chassis 12 is arranged, to pass through multiple first fasteners 24 and driving member 21 clampings.

In the specific implementation, driving assembly 20 includes driving member 21, is provided with hole 214 on driving member 21, and first Part 10 is at least partly set in through hole 214, to connect with driving member 21.

The second fastener 25 is provided on the outer wall of through hole 214, the second fastener 25 prolongs along the axis direction of through hole 214 It stretches, so that the first component 10 is clamped by the second fastener 25 with driving member 21；Second fastener 25 is multiple, multiple second fasteners 25 Axis around through hole 214 is arranged at intervals, it is preferable that the second fastener 25 is plate muscle.

In another embodiment provided by the invention, the inner wall for being at least partially disposed in installation cavity 101 of the second fastener 25 On, the second fastener 25 extends along the extending direction of installation cavity 101, the second fastener 25 be it is multiple, multiple second fasteners 25 are around the Two predetermined axial lines arrangement, after the first component 10 is set in through hole 214, to make multiple second fasteners 25 around through hole 214 axis.

Anti-skidding component 60 includes: stop part 61, and the first end of stop part 61 is abutted with chassis 12, the second end of stop part 61 It is abutted with stopper section 23, to increase the frictional force between chassis 12 and driving member 21.

Further, mounting groove 105 is provided on chassis 12, stop part 61 is at least partially seated in mounting groove 105, Stop part 61 is connect by mounting groove 105 with chassis 12.

Anti-skidding component 60 further includes；Compressed spring 62, compressed spring 62 are at least partially seated in mounting groove 105, pressure The first end of contracting spring 62 is abutted with the groove bottom of mounting groove 105, and the second end and stop part 61 of compressed spring 62 are far from backstop The one end in portion 23 abuts, to compress stop part 61 by compressed spring 62 when driving assembly 20 drives the first component 10 to rotate, To guarantee that driving assembly 20 drives the first component 10 to rotate synchronously.

Stop part 61 includes: the first noumenon 610, and the end of the first noumenon 610 is abutted with stopper section 23；Second ontology 611, Second ontology 611 is connect with the first noumenon 610, so that the first noumenon 610 and the second ontology 611 constitute step structure, compresses bullet Spring 62 is at least partly set on the second ontology 611, so that compressed spring 62 is connected on the step end face of step structure.

As shown in Fig. 8 to 13, oscillating mechanism further include: Buffer Unit 30, Buffer Unit 30 be mounted on second component 70 with Between the inner wall of installation cavity 101, to slow down the mill between second component 70 and the first component 10 when the first component 10 rotates Damage.

Oscillating mechanism further include: third member 40, third member 40 are at least partially seated in installation cavity 101, third Be provided with through-hole 401 on component 40, second component 70 at least partially across through-hole 401 and with 401 clearance fit of through-hole, buffering It is abutted in the first end for being at least partly set in second component 70 of component 30 and with the end face of third member 40.

The first end of second component 70 includes first body 71, and first body 71 has a backstop end face, and backstop end face is along the The extending direction of one body 71 extends, and Buffer Unit 30 includes: the first bolster 31, and the first bolster 31 is connected to first body On 71 and with the mutual backstop in backstop end face, the first bolster 31 connect with the first component 10, so that the first component 10 passes through first Bolster 31 drives second component 70 to rotate, it is preferable that second component 70 is axis body, and the radial section of first body 71 is D word Type, the first bolster 31 are set on first body 71, to drive second component 70 to rotate when the first component 10 rotates.

In the specific implementation, the first end of second component 70 further includes second body 72, and second body 72 is directed away from The direction protrusion of one body 71, so as to form step structure between first body 71 and second body 72, Buffer Unit 30 is also It include: the second bolster 32, the second bolster 32 is set on the second ontology, it is provided with clip-connecting rod 320 on the second bolster 32,

The connecting hole 310 cooperated with clip-connecting rod 320 is provided on first bolster 31, clip-connecting rod 320 is at least partly worn Connecting hole 310 is crossed so that the second bolster 32 is connect with the first bolster 31, it is preferable that the first bolster 31 is sheet metal component, the Two bolsters 32 are moulding, when the first component 10 rotates, in order to slow down between the first bolster 31 and second component 70 The second bolster 32 is arranged in abrasion, while reducing the abrasion between the first bolster 31 and second component 70, additionally it is possible to subtract Small noise.

In embodiment provided by the invention, it is connect for the ease of the first bolster 31 with the first component 10, installation cavity 101 It is inside provided with connecting plate, connecting plate extends towards the middle part close to installation cavity 101, is provided with mounting hole on connecting plate；First is slow It is provided with hole 311 in stamping 31, at least partly to sequentially pass through through hole 311 and mounting hole by make connector, makes First bolster 31 is connect with the first component 10, specifically, through hole 311 be it is multiple, multiple through holes 311 are around the first bolster 31 axis arrangement, mounting hole be it is multiple, multiple mounting holes are arranged correspondingly with multiple through holes 311 so that first delay Stamping 31 is connect more firm with the first component 10, it is preferable that mounting hole and through hole are set as two, two through hole phases To setting.

Preferably, as shown in figure 5, being provided with evacuation opening 321 on the second bolster 32, evacuation opening 321 and through hole 311 is opposite, and to avoid connector, specifically, evacuation opening 321 is two, and two evacuation openings 321 are oppositely arranged.

For the ease of conducting wire is connected, it is provided with third thread passing port 312 on the first bolster 31, is arranged on the second bolster 32 There is the 4th thread passing port 323, third thread passing port 312 and the 4th thread passing port 323 are opposite, for passing through for conducting wire.

Be provided with positioning protrusion 322 on second bolster 32, positioning protrusion 322 is arranged around the 4th thread passing port 323, with When installing the second bolster 32, by the mutual backstop of side wall of positioning protrusion 322 and composition third thread passing port 312, so that third Thread passing port 312 and the 4th thread passing port 323 are opposite, and setting in this way can guarantee that conducting wire can pass sequentially through 312 He of third thread passing port 4th thread passing port 323, avoids conducting wire from bending, and influences Electrical Safety.

It is provided with positioning rib 11 in installation cavity 101, is provided on Buffer Unit 30 and determines with what positioning rib 11 matched Position opening, to be positioned when installing Buffer Unit 30 to Buffer Unit 30, to guarantee that through hole 311 is opposite with mounting hole.

Oscillating mechanism further include: bearing assembly 80, bearing assembly 80 are mounted between second component 70 and third member 40, To support third member 40 when second component 70 is rotated with the first component 10.

Further, oscillating mechanism further include: bottom plate 50, third member 40 are fixedly connected with bottom plate 50.

Specifically, in embodiment provided by the invention, the first thread passing port 121, driving member are provided on the first component 10 The second thread passing port 213 is provided on 21；When the first component 10 is connect with driving member 21, the first thread passing port 121 and second crosses line Mouth 213 phases splicing passes through space for what is passed through for conducting wire to constitute.

During specific implementation, transmission slot 211 is provided on driving member 21, transmission slot 211 is around driving member 21 Axis arrangement, there is the active tooth socket being meshed with transmission slot 211, to pass through active tooth socket and transmission slot on actuator 211 engagement driving driving members 21 rotate, and the structure being arranged in this way is simple, and easy for installation, can be realized driving first While part 10 rotates, the engaged transmission high reliablity of transmission slot 211 and active tooth socket, stable transmission and easy to repair is excellent Selection of land, actuator have driving motor, drive transmission slot 211 to be meshed with active tooth socket by driving motor, facilitate adjusting The rotational angle and velocity of rotation of the first component 10.

The present invention also provides a kind of fan, including pedestal 2 and oscillating mechanism, oscillating mechanism is at least partially seated at bottom In seat 2, oscillating mechanism is the oscillating mechanism of above-described embodiment.

Specifically, fan further includes mounting base 3 and support base 4, and mounting portion 43 is provided on support base 4, and bottom plate 50 is installed In mounting portion 43, mounting base 3 and support base 4 are fastened, to be constituted installation space, head-shaking machine between mounting base 3 and support base 4 Structure is at least partially seated in installation space, and positioning column is provided in mounting base 3, is provided with location hole on driving gear, fixed Position column at least partially across location hole to be positioned to driving gear, guarantee driving gear engaged with transmission slot 211.

In use, since the first component 10 and driving member 21 are clamping, user can directly rotate the first component 10 To drive head rotating, to adjust the hunting range of head, improve the experience sense of user by；Driving member 21 and driving motor simultaneously Mutual backstop realizes driving member 21 and fixes, rotate driving motor will not because of external force, it is therefore prevented that user is in manual rotating machine Driving motor is damaged when body, improves the service life of oscillating mechanism.

It can be seen from the above description that the above embodiments of the present invention realized the following chievements:

The oscillating mechanism provided according to the present invention is connect for the head 1 with fan, to drive head 1 around predetermined axial line Rotation, oscillating mechanism include the first component 10, second component 70, driving assembly 20 and anti-skidding component 60, the first component 10 and machine First 1 connection, to drive head 1 to rotate, in the pedestal 2 for being at least partially seated at fan of driving assembly 20, driving assembly 20 with The first component 10 connects, so that at least partly drive first component 10 of driving assembly 20 rotates, is provided on the first component 10 Installation cavity 101, installation cavity 101 extend along the extending direction of the first component 10, and second component 70 is at least partly threaded through installation It is connect in chamber 101 and with the first component 10, to support the first component 10 when the first component 10 rotates, the setting of anti-skidding component 60 exists Between the first component 10 and driving assembly 20, anti-skidding component 60 is all connected with the first component 10 and driving assembly 20, anti-skidding component 60 are at least partly telescopically arranged, so that driving assembly 20 drives the first component 10 to rotate by anti-skidding component 60, structure It simply and readily realizes, driving assembly 20 is mounted in pedestal 2, alleviate the weight of head 1, while passing through anti-skidding group of setting It is more stable that part 60 can be such that driving assembly 20 connect with the first component 10, solves driving assembly in the prior art to machine The poor problem of the driving effect of head.

These are only the preferred embodiment 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.All within the spirits and principles of the present invention, it is made it is any modification, Equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (14)

1. a kind of oscillating mechanism is connect for the head (1) with fan, to drive the head (1) to rotate around predetermined axial line, It is characterized in that, the oscillating mechanism includes:

The first component (10), the first component (10) connect with the head (1), to drive the head (1) to rotate；

The pedestal (2) for being at least partially seated at the fan of driving assembly (20), the driving component (20) is interior, the driving Component (20) is connect with the first component (10), so that at least partly drive first component of the driving component (20) (10) it rotates；

Second component (70) is provided with installation cavity (101) on the first component (10), and the installation cavity (101) is along described The extending direction of one component (10) extends, and the second component (70) is at least partly threaded through in the installation cavity (101) simultaneously It is connect with the first component (10), to support the first component (10) when the first component (10) rotate；

Anti-skidding component (60), the anti-skidding component (60) setting the first component (10) and the driving component (20) it Between, the anti-skidding component (60) is all connected with the first component (10) and the driving component (20), the anti-skidding component (60) be at least partly telescopically arranged, so that driving assembly (20), which passes through the anti-skidding component (60), drives described first Part (10) rotation.

2. oscillating mechanism according to claim 1, which is characterized in that the bottom of the first component (10) is provided with chassis (12), the first component (10) is clamped by the chassis (12) and the driving component (20), the anti-skidding component (60) Be at least partly connected on the chassis (12).

3. oscillating mechanism according to claim 2, which is characterized in that the driving component (20) includes driving member (21), It is provided with accommodation space (210) on the driving member (21), the chassis (12) is at least partially seated at the accommodation space (210) in；

Be provided with stopper section (23) on the side wall of the accommodation space (210), the anti-skidding component (60) at least partly with institute State stopper section (23) abutting.

4. oscillating mechanism according to claim 3, which is characterized in that the stopper section (23) includes non-slip groove (230), institute State at least partly being connected in the non-slip groove (230) for anti-skidding component (60).

5. oscillating mechanism according to claim 1, which is characterized in that the driving component (20) includes driving member (21), The first component (10) connect with the driving member (21), the oscillating mechanism further include:

First fastener (24), first fastener (24) are at least partially disposed on the driving member (21), so that described One component (10) is clamped by first fastener (24) and the driving member (21).

6. oscillating mechanism according to claim 5, which is characterized in that first fastener (24) be it is multiple, it is multiple described First fastener (24) is arranged at intervals around predetermined axial line.

7. oscillating mechanism according to claim 1, which is characterized in that the driving component (20) includes driving member (21), It is provided with hole (214) on the driving member (21), the first component (10) is at least partly set in the through hole (214) on, to be connect with the driving member (21).

8. oscillating mechanism according to claim 7, which is characterized in that be provided on the outer wall of the through hole (214) Two fasteners (25), second fastener (25) extends along the axis direction of the through hole (214), so that the first component (10) it is clamped by second fastener (25) and the driving member (21).

9. oscillating mechanism according to claim 8, which is characterized in that second fastener (25) be it is multiple, it is multiple described Axis of second fastener (25) around the through hole (214) is arranged at intervals.

10. oscillating mechanism according to claim 3, which is characterized in that the anti-skidding component (60) includes:

The first end of stop part (61), the stop part (61) is abutted with the chassis (12), and the second of the stop part (61) End is abutted with the stopper section (23), to increase the frictional force between the chassis (12) and the driving member (21).

11. oscillating mechanism according to claim 10, which is characterized in that be provided with mounting groove on the chassis (12) (105), the stop part (61) is at least partially seated in the mounting groove (105).

12. oscillating mechanism according to claim 11, which is characterized in that the anti-skidding component (60) further includes；

Compressed spring (62), the compressed spring (62) are at least partially seated in the mounting groove (105), the compression bullet The first end of spring (62) is abutted with the groove bottom of the mounting groove (105), and the second end of the compressed spring (62) is stopped with described Block piece (61) is abutted far from the one end of the stopper section (23).

13. oscillating mechanism according to claim 12, which is characterized in that the stop part (61) includes:

The end of the first noumenon (610), the first noumenon (610) is abutted with the stopper section (23)；

Second ontology (611), second ontology (611) connect with the first noumenon (610), so that the first noumenon (610) step structure is constituted with second ontology (611), the compressed spring (62) is at least partly set in described second On ontology (611), so that the compressed spring (62) is connected on the step end face of the step structure.

14. a kind of fan, including pedestal (2) and oscillating mechanism, the oscillating mechanism is at least partially seated at the pedestal (2) It is interior, which is characterized in that the oscillating mechanism is oscillating mechanism described in any one of claims 1 to 13.