CN220357482U - Rocker device - Google Patents

Abstract

The application discloses a rocker device, which comprises a supporting seat, a rocker, a biasing piece and a reset component, wherein the rocker is provided with a pressing part; the biasing piece comprises a first end and a second end which are oppositely arranged, and the first end is contacted with the pressing part; the reset component is arranged at the second end; when the pressing part presses the first end of the biasing piece, the second end of the biasing piece deflects, and the reset assembly drives the second end of the biasing piece to reset. The rocker device is simple to assemble, reduces friction resistance between the biasing piece and the supporting seat, and further improves use experience of a user.

Description

Rocker device

Technical Field

The application relates to the technical field of controllers, in particular to a rocker device.

Background

The rocker in the existing rocker device can be automatically reset under the action of the reset mechanism. The reset mechanism comprises a movable piece and a reset spring. The reset spring and the movable piece are all positioned below the rocker, and the reset spring, the movable piece and the rocker are all coaxially arranged.

In the assembly process of the rocker device, the reset spring, the movable piece and the rocker are required to be coaxially arranged, so that the rocker returns, and the assembly difficulty of the rocker device is high; simultaneously, increase the frictional force between movable part and the supporting seat.

Disclosure of Invention

The application provides a rocker device to solve rocker device assembly in-process, must guarantee reset spring, moving part and rocker all coaxial setting, realize the rocker return, lead to the rocker device assembly degree of difficulty higher. In addition, the reset spring is positioned below the rocker, so that the technical problem of friction force between the rocker and the movable piece is increased.

For solving the above technical problem, the present application provides a rocker device, including: a support base; a rocker provided with a pressing part; the biasing piece comprises a first end and a second end which are oppositely arranged, and the first end is contacted with the pressing part; the reset component is arranged at the second end; when the pressing part presses the first end of the biasing piece, the second end of the biasing piece deflects, and the reset assembly drives the second end of the biasing piece to reset.

The biasing member is pivotally connected to the supporting seat through a pivot.

The rotating shaft is positioned between the first end and the second end and is biased towards the second end.

One of the two ends of the biasing element and the two ends in the supporting seat is provided with a rotating shaft, the other one is provided with a rotating shaft groove, and the rotating shaft rotates in the rotating shaft groove.

Wherein, a hard layer is arranged at one end face of the first end facing the pressing part.

Wherein, the pressing portion includes the diapire, and the periphery circle of diapire is provided with the inclined plane.

Wherein the reset assembly includes an elastic member for resetting the biasing member and an adjustment assembly for defining the elastic member.

The adjusting component is adjustably fixed on the supporting seat and used for adjusting the elasticity of the elastic piece.

The adjusting assembly comprises a first adjusting piece, the second end of the first adjusting piece is penetrated through and connected with the supporting seat, the elastic piece is sleeved on the first adjusting piece, one end of the elastic piece is contacted with one end of the first adjusting piece, which is far away from the second end, and the other end of the elastic piece is contacted with one side surface of the second end, which is far away from the supporting seat.

The first adjusting piece penetrates through the second end and is in threaded connection with the supporting seat.

The adjusting assembly comprises a first connecting piece, wherein the first connecting piece is arranged in the supporting seat, and the first adjusting piece is in threaded connection with the first connecting piece.

The adjusting assembly comprises a second adjusting piece and a pressing block, wherein the second adjusting piece penetrates through one end of the pressing block and is connected into the second end, one end of the elastic piece is connected with the other end of the pressing block, and the other end of the elastic piece is connected with the supporting seat.

Wherein the second adjusting member is threadedly coupled within the second end.

The adjusting component comprises a second connecting piece, the second connecting piece is arranged in the second end, and the second connecting piece is connected with the second adjusting piece in a threaded manner; the second adjusting piece is sleeved with at least one clamping ring, and the clamping ring is positioned between the pressing block and the second adjusting piece.

Wherein, the second end is provided with the spacing post parallel with the second regulating part, and spacing post is worn to establish by the briquetting.

The adjusting assembly comprises a third adjusting piece and a driving piece, the third adjusting piece is arranged between the second end and the second end, one end of the elastic piece is connected with the third adjusting piece and is far away from the second end, the other end of the elastic piece is connected with the second end, the driving piece is arranged on one side, deviating from the elastic piece, of the third adjusting piece, and the driving piece can drive the third adjusting piece to move towards the second end and is used for changing the elastic force of the elastic piece.

The driving piece comprises a rotary cover, and the rotary cover can rotate relative to the third adjusting piece so as to adjust the elastic force of the elastic piece.

The rotary cover is internally provided with a track groove, and the third adjusting piece slides in the track groove and is abutted to the track groove.

The rocker device comprises a rocker arm assembly and a rocker arm, the rocker arm is fixedly connected to the rocker arm assembly, and the rocker arm assembly rotates along with the tilting operation of the rocker arm.

The rocker arm assembly comprises a first rocker arm and a second rocker arm, the pressing part is arranged at one end of the first rocker arm, which faces the offset piece, the first rocker arm rotates in the second rocker arm along the first direction, the second rocker arm rotates in the supporting seat along the second direction, and the first direction and the second direction are orthogonally arranged.

The second rocker arm is provided with an open installation cavity, and two ends of the first rocker arm rotate in the installation cavity; the rocker comprises a connecting part, and the connecting part is connected with the first rocker and protrudes out of the surface of the second rocker through the opening.

The rocker arm assembly comprises two first bearing parts, wherein the first bearing parts are sleeved on the first fixed shaft so as to enable the first fixed shaft to rotate relative to the second rocker arm; the two ends of the second rocker arm are provided with second fixed shafts, the rocker arm assembly comprises two second bearing parts, and the second bearing parts are sleeved on the second fixed shafts so that the second fixed shafts rotate relative to the supporting seat.

The rocker device comprises a circuit board, at least one of two ends of the first rocker arm is provided with a first magnet, and the circuit board is provided with a first Hall sensor matched with the first magnet; at least one of the two ends of the second rocker arm is provided with a second magnet, and the circuit board is provided with a second Hall sensor matched with the second magnet; or, one side surface of the second end, which is away from the rocker, is provided with at least one third magnet, and the circuit board is provided with a three-dimensional Hall sensor matched with the third magnet.

The beneficial effects of this application are: unlike the prior art, the present application provides a rocker device. The rocker device comprises a supporting seat, a rocker, a biasing piece and a resetting component. The rocker is provided with a pressing part. The biasing member includes oppositely disposed first and second ends. The first end is in contact with the pressing portion. The reset component is arranged at the second end. When the pressing part presses the first end of the biasing piece, the second end of the biasing piece deflects, and the reset assembly drives the second end of the biasing piece to reset. By the mode, the reset component is arranged at the second end of the biasing piece, but not at the first end of the biasing piece, so that the rocker and the reset mechanism are prevented from being coaxially arranged, and the assembly difficulty of the rocker device is reduced; when the reset component is bad, the reset component is convenient to detach and replace. In addition, the biasing element is arranged on the supporting seat in a lever mode, the reset component is arranged at the second end of the biasing element, the pressing part of the rocker is directly contacted with the first end of the biasing element, the biasing element is not required to be coaxially arranged with the reset mechanism, the contact area between the biasing element and the supporting seat is reduced, the friction resistance between the biasing element and the supporting seat is further reduced, the accuracy of the operation of the rocker is improved, and the use experience of the rocker device is further improved; meanwhile, the structure of the rocker does not need to be changed.

Drawings

For a clearer description of the technical solutions in the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly introduced below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art, wherein:

FIG. 1 is a schematic view of a first embodiment of a rocker device of the present application;

FIG. 2 is an exploded schematic view of a first embodiment of the rocker device of the present application;

FIG. 3 is a schematic cross-sectional view of a first state of a first embodiment of the rocker device of the present application;

FIG. 4 is a schematic cross-sectional view of a second state of the first embodiment of the rocker device of the present application;

FIG. 5 is a schematic view of the structure of a rocker in a first embodiment of the rocker device of the present application;

FIG. 6 is a schematic view of the structure of a rocker in a second embodiment of the rocker device of the present application;

FIG. 7 is a schematic view of a second embodiment of a rocker device of the present application;

FIG. 8 is a schematic cross-sectional view of a second embodiment of a rocker device of the present application;

FIG. 9 is an exploded schematic view of a second embodiment of the rocker device of the present application;

FIG. 10 is a schematic view of the construction of a third embodiment of the rocker device of the present application;

FIG. 11 is a schematic cross-sectional view of a third embodiment of a rocker device of the present application;

FIG. 12 is an exploded view of a third embodiment of the rocker device of the present application;

FIG. 13 is a side view of a third embodiment of a rocker device of the present application;

fig. 14 is a schematic structural view of a rotary cover in a third embodiment of the rocker device of the present application.

Reference numerals: 10. a rocker device; 1. a support base; 13. a second hanging groove; 2. a rocker arm assembly; 21. a rocker; 211. a pressing part; 2111. a bottom wall; 2111a, inclined surface; 212. a connection part; 22. a first rocker arm; 221. a first fixed shaft; 222. a first bearing member; 23. a second rocker arm; 231. a second fixed shaft; 232. a second bearing member; 233. a mounting cavity; 3. a biasing member; 31. a first end; 32. a second end; 321. a limit column; 4. a reset assembly; 41. an elastic member; 42. an adjustment assembly; 421a, a first adjustment; 422a, a first connector; 421b, a second adjustment member; 422b, briquetting; 4221b, a first hanging groove; 423b, snap ring; 4231b, a first snap ring; 4232b, a second snap ring; 424b, a second connector; 421c, a third adjustment; 4211c, an abutment block; 4212c, guide posts; 422c, rotating the cap; 4221c, track grooves; 4222c, bottom surface; 4223c, inclined plane; 4224c, a driving unit; 51. a rotating shaft; 52. a rotating shaft groove; 7. a circuit board; 81. a two-dimensional hall assembly.

Detailed Description

The following description of the technical solutions in the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the present application. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

The rocker in the rocker device is a core component of devices such as a game handle and an unmanned aerial vehicle remote controller, and the rocker can provide signals for the devices such as the game handle or the unmanned aerial vehicle remote controller in real time in the rotating process, so that the movement of the devices such as a game role or the unmanned aerial vehicle is controlled, the accuracy of the signals directly influences the user experience, and the device is a core base number requirement of the rocker type device. Therefore, it is important that the rocker can accurately return to the origin every time.

The dead zone of the rocker is within a preset certain range, and the real-time signal of the action of the rocker does not affect the game character or the unmanned aerial vehicle. When the restoring force provided by the restoring spring below the rocker and the friction force of each part inside the rocker reach the moment balance, the rocker is clamped at the non-origin position. With the increase of the service time, the abrasion of each part is increased, the friction force is larger and larger than the initial dead zone value of the rocker, and the dead zone range of the rocker is required to be expanded automatically at the moment so as to ensure the accuracy of the rocker action, and the dead zone consistency is poor. The poor dead zone consistency means that the invalid operation of the rocker is added, namely, a user needs to operate the rocker to cross the enlarged dead zone range of the rocker first, then the game character or the unmanned aerial vehicle can be controlled, namely, the dead zone of the initial rocker is invalid for the game character or the unmanned aerial vehicle, and for the athletic class, the invalid operation directly influences the experience of the user, and the larger the enlarged dead zone range of the rocker is, the worse the use experience of the user is.

The rocker device provided by the utility model is described in detail below with reference to the embodiments.

Referring to fig. 1, 2 and 3, fig. 1 is a schematic structural diagram of a first embodiment of a rocker device according to the present application; FIG. 2 is an exploded schematic view of a first embodiment of the rocker device of the present application; fig. 3 is a schematic cross-sectional view of a first state of a first embodiment of the rocker device of the present application. The present application provides a rocker device 10. The rocker device 10 comprises a support base 1, a rocker 21, a biasing member 3 and a reset assembly 4. The support base 1 provides a certain supporting force for the whole rocker device 10. The rocker 21 is provided with a pressing portion 211. The biasing member 3 includes oppositely disposed first and second ends 31, 32. The first end 31 is in contact with the pressing portion 211. The pressing portion 211 is always in contact with the first end 31 when the rocker 21 is in the rotating state or the reset state.

The reset assembly 4 is disposed at the second end 32. When the pressing portion 211 acts on the first end 31, the second end 32 acts on the reset device 4, and the reset device 4 itself changes its structure and accumulates a predetermined amount of energy. When the pressing part 211 releases the acting force on the first end 31 and the second end 32 also releases the acting force on the reset assembly 4, the reset assembly 4 can drive the second end 32 to reset in the process of releasing energy and recovering the original state by means of the self structure of the reset assembly 4. Wherein, biasing member 3 is arranged on supporting seat 1 through lever mode, and first end 31 and second end 32 atress condition influence each other. The reset assembly 4 may have any structure, and may satisfy a reset function, and the specific structure thereof is not limited.

Referring to fig. 4, fig. 4 is a schematic cross-sectional view illustrating a second state of the first embodiment of the rocker device. Referring to fig. 1 to 3, specifically, when the pressing portion 211 presses the first end 31 of the biasing member 3, the first end 31 is forced to move the second end 32, so that the second end 32 of the biasing member 3 is biased. During the displacement of the second end 32, the second end 32 acts on the reset assembly 4 to cause the reset assembly 4 itself to change its configuration and accumulate a certain capacity. When the pressing portion 211 releases the pressing of the first end 31, the second end 32 releases the force on the reset assembly 4, and at this time, the reset assembly 4 is restored and drives the second end 32 of the biasing element 3 to reset, so that the first end 31 is reset, and the first end 31 drives the rocker 21 to reset.

By the mode, the reset component 4 is arranged at the second end 32 of the biasing element 3, but not at the first end 31 of the biasing element 3, so that the rocker 21 and the reset mechanism are prevented from being coaxially arranged, and the assembly difficulty of the rocker device 10 is reduced; when the reset component 4 is bad, the disassembly and the replacement are convenient. In addition, the biasing element 3 is arranged on the supporting seat 1 in a lever mode, the reset component 4 is arranged at the second end 32 of the biasing element 3, the pressing part 211 of the rocker 21 is directly contacted with the first end 31 of the biasing element 3, the biasing element 3 is not required to be coaxially arranged with the reset mechanism, the contact area of the biasing element 3 and the supporting seat 1 is reduced, the friction resistance between the biasing element 3 and the supporting seat 1 is further reduced, the operation accuracy of the rocker 21 is improved, and the use experience of the rocker device 10 is further improved; at the same time, the structure of the rocker 21 itself does not need to be changed. Meanwhile, the biasing piece 3 is arranged in a lever mode, and the reset mechanism and the rocker 21 are not coaxially arranged, so that the biasing piece 3 can be supported by adopting a light material, a metal material with higher strength is not required, and the production cost is greatly reduced.

The biasing member 3 is arranged on the supporting seat 1 through a lever type, and the stress conditions of the first end 31 and the second end 32 are mutually influenced. The biasing member 3 may be offset on the support base 1, and the structure in which the biasing member 3 is specifically mounted to the support base 1 is not limited. For example, the biasing member 3 may be lever-type movable on the support base 1 by means of a ball and socket structure, a rotating shaft structure, or the like.

In one embodiment, the biasing member 3 is pivotally coupled to the support base 1 via a pivot 51. The rotation shaft 51 not only provides a certain supporting force for the biasing member 3 to be mounted to the supporting base 1, but also enables the biasing member 3 to rotate relative to the supporting base 1. The biasing piece 3 and the supporting seat 1 are pivoted through the rotating shaft 51, so that the biasing piece 3 rotates more smoothly relative to the supporting seat 1, the rocker 21 is pushed or restored more in a labor-saving manner, and the use experience is improved; but also reduces the friction between the biasing member 3 and the support seat 1, thereby reducing the possibility of the dead zone of the rocker 21 expanding.

In an embodiment, the location of the rotating shaft 51 between the biasing member 3 and the supporting seat 1 may be determined according to practical situations. Such as a rotary shaft 51, may be provided between the end of the first end 31 of the biasing member 3 and the support base 1. Alternatively, the rotation shaft 51 may be disposed between the end of the second end 32 of the biasing member 3 and the support base 1. Alternatively, the rotation shaft 51 may be disposed between the middle position of the biasing member 3 and the support base 1. Alternatively, the rotation shaft 51 may be disposed between the intermediate position of the biasing member 3 and the first end 31, or the rotation shaft 51 may be disposed between the intermediate position and the second end 32. Wherein the intermediate position is the same as the distance between the first end 31 and the second end 32.

In one embodiment, the shaft 51 is positioned between the first end 31 and the second end 32, with the shaft 51 being biased toward the second end 32. I.e. the rotation axis 51 is located between the middle position of the biasing member 3 and the second end 32. Through the above-mentioned pivot 51 position limitation, biasing piece 3 rotates more smoothly relative supporting seat 1, and rocker 21 is promoted or reset more laborsaving, promotes rocker device 10 use experience.

In an embodiment, the two sides of the biasing member 3 extending along the first end 31 toward the second end 32 are connected to the two sides of the supporting seat 1 through the rotating shaft 51 and the rotating shaft groove 52. The rotating shaft 51 rotates in the rotating shaft groove 52, so that the biasing member 3 rotates relative to the supporting seat 1, and the structure is simple and easy to implement.

In one embodiment, the two sides of the extending direction of the biasing member 3 are provided with rotating shafts 51. The two sides of the supporting seat 1 are provided with rotating shaft grooves 52. The shaft 51 rotates in the shaft groove 52. In another embodiment, the biasing member 3 is provided with spindle grooves 52 on both sides in the extending direction. The rotating shafts 51 are arranged on two sides of the supporting seat 1. The shaft 51 rotates in the shaft groove 52. In other embodiments, one of the two sides of the extending direction of the biasing member 3 is provided with the spindle groove 52. One of the two sides of the support base 1 is provided with a rotation shaft 51. The shaft 51 rotates in the shaft groove 52.

In other alternative embodiments, the biasing member 3 extends in a direction through a rotating shaft groove 52, and two sides of the supporting seat 1 are provided with another rotating shaft groove 52. The rotating shaft 51 penetrates through the rotating shaft groove 52, so that the biasing member 3 rotates relative to the supporting seat 1 through the rotating shaft 51. In this embodiment, the biasing member 3 is more stable in rotation relative to the support base 1 than in the above-mentioned embodiment.

In the actual process, the two outer sides of the extending direction of the biasing member 3 are matched with the two inner sides of the supporting seat 1. Of course, in other embodiments, the two inner sides of the extending direction of the biasing member 3 are matched with the two outer sides of the supporting seat 1, and the specific structure is not limited.

In one embodiment, a hard layer (not shown) is disposed on an end surface of the first end 31 facing the pressing portion 211. The hardness layer can strengthen the hardness of the first end 31 towards one end face of the pressing portion 211, reduce abrasion of the pressing portion 211 to the first end 31, improve the abrasion resistance of the first end 31, and further improve the usability of the rocker device 10. In addition, the hard layer can be formed in a mirror shape, so that friction force between the pressing portion 211 and the first end 31 can be reduced, and the possibility of expanding the dead zone of the rocker 21 can be reduced. The hard layer may be a metal layer, a metal alloy layer, or the like, and is not limited thereto.

Referring to fig. 5 and 6, fig. 5 is a schematic structural diagram of a rocker in a first embodiment of a rocker device according to the present application; fig. 6 is a schematic view of the structure of a rocker in the second embodiment of the rocker device of the present application. Referring to fig. 1 to 4, in an embodiment, the pressing portion 211 includes a bottom wall 2111. An inclined surface 2111a is provided on the outer circumference of the bottom wall 2111. When the rocker 21 rotates in different directions, the pressing portion 211 presses the first end 31 in different directions. When the pressing portion 211 is tilted, the inclined surface 2111a and the first end 31 are at least in a line contact state, so that the contact area between the inclined surface 2111a and the first end 31 is increased, and the stability of the rocker 21 acting on the first end 31 is further improved.

Specifically, the inclined surface 2111a has an arcuate surface, which increases the contact area between the inclined surface 2111a and the first end 31, improves the stability of the rocker 21 acting on the first end 31, reduces the friction between the inclined surface 2111a and the first end 31, and reduces the wear of the pressing portion 211 on the first end 31.

The rocker 21 of the prior rocker device 10 requires a certain operating force to be pushed. The existing reset mechanism cannot be adjusted; meanwhile, because the reset mechanism is arranged below the rocker 21, the reset mechanism is difficult to replace, so that the operation force of the rocker 21 in the rocker device 10 is single, and the operation force requirements of different users on the rocker 21 cannot be met, wherein the operation force of the rocker 21 directly affects the use experience of the users, and the smaller the operation force is, the more relaxed the operation is.

Therefore, by changing the self structure of the reset component 4, different reset forces are formed, so that different operation forces of the rocker 21 are adjustable. In addition, through setting up reset assembly 4 at biasing member 3's second end 32, be convenient for reset assembly 4 adjust at any time, further satisfy rocker 21 operation different dynamics demands.

In one embodiment, the reset assembly 4 includes an elastic member 41 and an adjustment assembly 42. The elastic member 41 has a certain elastic force. The elastic member 41 is used for restoring the biasing member 3. The adjustment assembly 42 is used to define the resilient member 41. The adjusting component 42 is used for adjusting different elasticity of the elastic piece 41 by limiting the elastic piece 41, so that different operation forces of the rocker 21 are adjustable, and the use experience is improved. The elastic member 41 may be a compression spring, a tension spring, or the like, and is not limited thereto. The adjusting component 42 may be any structure, and can realize that the strength of the elastic member 41 is adjustable, which is not limited herein.

Specifically, the adjustment assembly 42 is adjustably fixed to the support base 1. That is, the adjusting component 42 is disposed at a position related to the supporting seat 1 and the second end 32, and the lifting adjusting component 42 is used for adjusting the stability of the elastic force of the elastic member 41, so as to meet the realization of various different embodiments.

Referring back to fig. 1-4, in a first embodiment, the adjustment assembly 42 includes a first adjustment member 421a. The first adjusting member 421a is disposed through the second end 32. Meanwhile, the first regulating member 421a is coupled to the supporting base 1. The elastic member 41 is sleeved on the first adjusting member 421a. Wherein one end of the elastic member 41 contacts one end of the first regulating member 421a remote from the second end 32. The other end of the elastic member 41 contacts a side surface of the second end 32 away from the supporting seat 1. Wherein, the two ends of the elastic member 41 are respectively located between the first adjusting member 421a and the second end 32, and the length of the elastic member 41 can be changed by changing the distance between the first adjusting member 421a and the second end 32, so that the elastic force of the reset assembly 4 is different, and further different operating force requirements of different users on the rocker 21 are satisfied. The first adjusting member 421a may be capable of being adjusted, and the specific structure thereof is not limited. The elastic member 41 may be a compression spring.

Specifically, after the first adjusting member 421a is inserted through the second end 32, the first adjusting member 421a is screwed with the supporting base 1. The first adjusting piece 421a rotates relative to the supporting seat 1, and can change the length of the elastic piece 41, so that the elastic force of the reset component 4 is different, and further, different operation force requirements of different users on the rocker 21 are met. In addition, the first adjusting member 421a is screwed to the supporting base 1, so that the adjustment is simpler and the replacement and installation are easy. The first adjusting member 421a may be a set screw or a set screw.

When the first adjusting member 421a rotates in a direction relative to the support base 1, the length of the elastic member 41 becomes longer, and the deformation amount of the elastic member 41 becomes smaller, and the operating force of the rocker 21 decreases. When the first adjusting member 421a rotates in the other direction with respect to the supporting base 1, the length of the elastic member 41 becomes shorter, the deformation of the elastic member 41 becomes larger, and the operating force of the rocker 21 increases. Therefore, by adjusting the length of the elastic member 41, different operation force requirements of different users on the rocker 21 can be satisfied.

Further, the adjustment assembly 42 includes a first connector 422a. The first connecting piece 422a is disposed in the supporting seat 1. The first adjustment member 421a is threadedly coupled to the first coupling member 422a. By arranging the first connecting piece 422a in the supporting seat 1, the first adjusting piece 421a is in threaded connection with the first connecting piece 422a, so that the stability of adjustment of the first adjusting piece 421a is improved, and the risk that the first adjusting piece 421a is separated from the supporting seat 1 is reduced.

The first connecting piece 422a may be disposed in the supporting seat 1 by an embedding or clamping manner. Wherein the inner sidewall of the first connecting member 422a is provided with an internal thread (not shown). The outer side wall of the first regulating member 421a is provided with an external thread (not shown). The internal thread and the external thread are connected in a threaded connection mode. The first connection piece 422a may be a fixing nut. The fixing nut, the fixing screw and the pressure spring are matched with each other, namely, the difference of the elastic force of the reset assembly 4 is realized, and the reset assembly is simple in operation, simple in structure and easy to replace, and meanwhile, the cost can be reduced.

Referring to fig. 7, 8 and 9, fig. 7 is a schematic structural view of a second embodiment of a rocker device according to the present application; FIG. 8 is a schematic cross-sectional view of a second embodiment of a rocker device of the present application; fig. 9 is an exploded view of a second embodiment of the rocker device of the present application. In the second embodiment, the regulating assembly 42 includes a second regulating member 421b and a pressing block 422b. The second adjusting member 421b is disposed through one end of the pressing block 422b and connected to the second end 32. One end of the elastic member 41 is connected to the other end of the pressing block 422b. The other end of the elastic member 41 is connected to the support base 1. Because the second adjusting piece 421b is connected to the second end 32, the tightness of the pressing piece 422b can be adjusted by adjusting the height of the second adjusting piece 421b relative to the second end 32 or the pressing piece 422b, and then the length of the elastic piece 41 is changed, so that the elastic force of the reset component 4 is different, and further different operating force demands of different users on the rocker 21 are met.

Specifically, when the distance between the pressing block 422b and the supporting seat 1 becomes large, the tension of the elastic member 41 becomes large by the second adjusting member 421b, so that the elastic force of the reset assembly 4 becomes large, and thus the operation force of the rocker 21 becomes large. When the distance between the pressing block 422b and the supporting seat 1 is reduced, the tension of the elastic piece 41 is reduced, so that the elastic force of the reset assembly 4 is reduced, and the operation force of the rocker 21 is reduced. Namely, the second adjusting piece 421b adjusts the relative distance between the pressing block 422b and the supporting seat 1, so as to change the elastic force of the elastic piece 41, thereby realizing different operation force demands of different users on the rocker 21. The second adjusting member 421b may be a set screw, or the like, and is not limited thereto. The elastic member 41 may be a tension spring.

In one embodiment, second adjustment member 421b is threadably coupled within second end 32. The second adjusting piece 421b can be conveniently adjusted at the second end 32 through threads, and the distance between the pressing block 422b and the second end 32 is changed, so that the elastic force of the elastic piece 41 is changed, the elastic force of the reset component 4 is different, and the requirements of different users on different operation forces of the rocker 21 are met. In addition, the second adjustment member 421b is screwed to the second end 32, so that the adjustment is simpler and the replacement and installation are easier.

In one embodiment, the pressing block 422b is disposed on a side of the second end 32 facing away from the support base 1. Alternatively, the press block 422b is disposed between the second end 32 and the support base 1. Therefore, the pressing block 422b can be flexibly arranged according to actual conditions, so that the structural design of the rocker device 10 is more flexible. Meanwhile, since the setting positions of the pressing blocks 422b are different, the distances between the pressing blocks 422b and the supporting seat 1 are also different, so that the elastic deformation degrees of the elastic pieces 41 are different, and the variety of the operation force of the rocker device 10 is increased.

The setting position of the pressing block 422b may be determined according to the actual situation. In one embodiment, the pressing block 422b is disposed at a side of the second end 32 facing away from the supporting seat 1. The distance between the pressing block 422b and the supporting seat 1 is relatively far, and the elastic deformation of the elastic member 41 is increased, so that the elastic member 41 has larger elasticity. As another embodiment, the press block 422b is disposed between the second end 32 and the support base 1. The distance between the pressing block 422b and the supporting seat 1 is relatively close, so that the elastic deformation of the elastic member 41 can be reduced, and the elastic force of the elastic member 41 is smaller.

In one embodiment, reset assembly 4 includes a second connector 424b. The second connector 424b is disposed within the second end 32. The second adjusting member 421b is screw-coupled to the second coupling member 424b. By providing the second connecting member 424b in the second end 32, the second adjustment member 421b is threadably coupled to the second connecting member 424b, improving the stability of the adjustment of the second adjustment member 421b, and reducing the risk of the second adjustment member 421b backing out of the second end 32.

The second connecting member 424b may be embedded or fastened in the second end 32. Wherein the second connecting member 424b is provided with internal threads (not shown) on the inner sidewall. The outer side wall of the second regulating member 421b is provided with an external thread (not shown). The internal thread and the external thread are connected in a threaded connection mode. The second connection member 424b may be a fixing nut. The fixed nut, the fixed screw and the tension spring are matched with each other, so that the reset assembly 4 has different elastic forces, and the reset assembly is simple in operation, simple in structure and easy to replace, and meanwhile, the cost can be reduced.

In one embodiment, the second adjustment member 421b is provided with at least one snap ring 423b. At least one snap ring 423b is located between the press block 422b and the second end 32. The snap ring 423b limits the pressing block 422b in the axial direction of the second regulating member 421 b. When the second adjusting member 421b is driven to move by the second end 32, the second adjusting member 421b is limited by the retaining ring 423b to drive the pressing block 422b to move. Thus, the pressing block 422b moves stably along with the second adjusting member 421b, and the pressing block 422b drives the elastic member 41 to elastically deform.

The number of the snap rings 423b may be one, two, three, or more, etc., and is not limited herein. As in the present embodiment, the number of the snap rings 423b is two. The snap ring 423b may be integrally formed with the second adjusting member 421b, or may be sleeved on the second adjusting member 421b, which is not limited herein.

In one embodiment, the second adjusting member 421b is disposed through the second end 32. The second adjusting member 421b is sleeved with a first snap ring 4231b and a second snap ring 4232b. The first snap ring 4231b is located between the press block 422b and the second end 32. The second snap ring 4232b is located at an end of the second adjustment member 421b remote from the press block 422 b. When the second adjustment member 421b is threadably adjusted to the second end 32, the first snap ring 4231b moves with the movement of the second adjustment member 421 b. The first snap ring 4231b provides a limiting effect on the press block 422 b. The pressing block 422b moves with the movement of the second regulating member 421b due to the limit. The second snap ring 4232b also moves with the movement of the second regulation member 421 b. When the second snap ring 4232b moves to a side of the second end 32 facing away from the press block 422b, the second snap ring 4232b limits a side of the second end 32 facing away from the press block 422 b. The second adjustment member 421b cannot continue to be adjusted along the second snap ring 4232b toward the first snap ring 4231 b.

In this way, the pressing block 422b can stably move along with the movement of the second end 32, so as to drive the elastic member 41 to elastically deform, and change the operation force required for operating the rocker device 10. In addition, since the second snap ring 4232b may limit the second end 32, the second adjustment member 421b may have a maximum adjustment distance when adjusted along the second snap ring 4232b toward the first snap ring 4231b, and may transmit force feedback to the user. Thereby, the probability of structural damage of the rocker device 10 due to over-adjustment can be reduced.

Further, the distance from the first snap ring 4231b to the second snap ring 4232b is greater than the thickness of the second end 32. Therefore, the adjusting distance of the second adjusting member 421b may be the difference between the distance from the first ring 4231b to the second ring 4232b and the thickness of the second end 32, so as to facilitate the elastic member 41 to elastically deform by adjusting the position of the second adjusting member 421 b.

In one embodiment, the second end 32 is provided with a limit post 321. The limiting post 321 is parallel to the extending direction of the second adjusting member 421 b. The pressing block 422b is provided with a limiting post 321. Through setting up spacing post 321, second regulating part 421b can be guided by spacing post 321 when adjusting in second end 32, and second regulating part 421b can be stable and even adjust in second end 32, makes the required operation dynamics size of adjusting operation rocker device 10 more continuous stable.

In an embodiment, an end of the pressing block 422b remote from the second adjustment member 421b is provided with a first hooking groove 4221b. The support base 1 is provided with a second hanging groove 13. One end of the elastic member 41 is hung in the first hanging groove 4221b. The other end of the elastic member 41 is hung on the second hanging groove 13. Through the arrangement, the elastic piece 41 can be installed only by hanging, and the replacement and the maintenance are easy.

Referring to fig. 10, 11 and 12, fig. 10 is a schematic structural view of a third embodiment of a rocker device according to the present application; FIG. 11 is a schematic cross-sectional view of a third embodiment of a rocker device of the present application; fig. 12 is an exploded view of a third embodiment of the rocker device of the present application. In the third embodiment, the adjusting assembly 42 includes a third adjusting member 421c and a driving member (not shown). The third regulating member 421c is spaced apart from the second end 32. The elastic member 41 is disposed between the third regulating member 421c and the second end 32. One end of the elastic member 41 is connected to a side of the third adjusting member 421c away from the second end 32. The other end of the elastic member 41 is connected to the side of the second end 32 facing the third regulating member 421 c. The driving member is disposed at a side of the third adjusting member 421c facing away from the elastic member 41. The driving member can drive the third adjusting member 421c to move toward or away from the second end 32 for changing the elastic force of the elastic member 41.

The manner in which the driving member drives the third adjustment member 421c toward or away from the second end 32 may be set according to practical situations. In one embodiment, the driving member is in contact with the third adjustment member 421 c. The driving member pushes the third regulating member 421c to move the third regulating member 421c toward the second end 32. In another embodiment, the driving member is provided with a first magnetic member (not shown). The third regulating member 421c is provided with a second magnetic member (not illustrated in the drawing). The first magnetic piece and the second magnetic piece are magnetic poles repulsed. The drive member changes the position of the first magnetic member toward the second end 32. The second magnetic member moves in the same direction under the repulsive magnetic force to move the third regulating member 421c toward the second end 32.

As the third adjustment member 421c moves in a direction toward the second end 32, the distance between the third adjustment member 421c and the second end 32 decreases. The degree of elastic deformation of the elastic member 41 increases. The elastic force applied to the second end 32 by the elastic member 41 increases. As the third adjustment member 421c is adjusted away from the second end 32, the distance between the third adjustment member 421c and the second end 32 decreases. The elastic deformation of the elastic member 41 is reduced. The elastic force applied to the second end 32 by the elastic member 41 decreases.

Compared with the prior art, the driving member drives the third adjusting member 421c to approach or separate from the second end 32, and changes the distance between the third adjusting member 421c and the second end 32, so that the elastic deformation degree of the elastic member 41 is changed, so that the elastic force of the reset assembly 4 is different, and further different operating force requirements of different users on the rocker 21 are satisfied.

The connection manner of the elastic member 41 and the third adjusting member 421c and the second end 32 may be set according to practical situations, for example, abutting connection, welding connection, adhesive connection, etc., which is not limited herein.

Referring to fig. 13 and 14, fig. 13 is a side view of a third embodiment of a rocker device according to the present application; fig. 14 is a schematic structural view of a rotary cover in a third embodiment of the rocker device of the present application. Referring to fig. 10, 11 and 12, in one embodiment, the driver includes a rotary cap 422c. The rotary cover 422c is rotatable relative to the third adjusting member 421c, and the elastic force of the elastic member 41 is changed by moving the third adjusting member 421c toward or away from the second end 32. When the rotary cover 422c rotates in a direction, the rotary cover 422c acts on the third adjusting member 421c, and the third adjusting member 421c moves toward the second end 32, shortening the distance between the third adjusting member 421c and the second end 32, and at this time, the length of the elastic member 41 is shortened, the degree of elastic deformation of the elastic member 41 is increased, and the elastic force of the elastic member 41 is increased. When the rotary cover 422c rotates in the other direction, the rotary cover 422c acts on the third regulating member 421c, the third regulating member 421c moves away from the second end 32, the distance between the third regulating member 421c and the second end 32 increases, at this time, the length of the elastic member 41 increases, the degree of elastic deformation of the elastic member 41 decreases, and the elastic force of the elastic member 41 decreases.

Through the arrangement, the rotary cover 422c rotationally drives the third adjusting piece 421c to be close to or far away from the second end 32, so that the distance between the third adjusting piece 421c and the second end 32 is changed, the elastic force of the elastic piece 41 is conveniently adjusted, the elastic force of the reset component 4 is different, and further different operating force demands of different users on the rocker 21 are met.

In an embodiment, a side of the rotary cover 422c facing the third regulating member 421c is provided with a rail groove 4221c. The third regulating member 421c is slidably movable in the rail groove 4221c. Meanwhile, the third regulating member 421c may abut in the rail groove 4221c.

Specifically, when the third regulating member 421c abuts against a first position (not illustrated in the drawing) of the rail groove 4221c, the rail groove 4221c generates a first force on the third regulating member 421 c. When the rotary cover 422c rotates, the rail groove 4221c moves with respect to the third regulation member 421 c. The third adjusting member 421c abuts against a second position (not shown) of the rail groove 4221c, and the rail groove 4221c generates a second force on the third adjusting member 421 c. Wherein the first force is different from the second force. Through rotating rotatory lid 422c, third regulating part 421c butt in the different positions department of track groove 4221c, change third regulating part 421c and be close to or keep away from second end 32 distance, and then change elastic component 41 elasticity size for reset assembly 4 elasticity is different, and then satisfies different users' different operation dynamics demands to rocker 21.

Through the above arrangement, by providing the rail groove 4221c and the third regulating member 421c to be engaged with each other, not only the elastic force of the elastic member 41 is changed, but also the structure is simple and easy to implement, and at the same time, replacement and maintenance are easy.

The shape of the rail groove 4221c may be set according to actual conditions. In one embodiment, the rotational cap 422c rotates clockwise and the vertical distance from the rail groove 4221c to the second end 32 toward one side plane of the rotational cap 422c decreases. As another embodiment, the rotatable cap 422c rotates counterclockwise and the vertical distance from the rail groove 4221c to the second end 32 toward one side plane of the rotatable cap 422c increases gradually.

In one embodiment, the rail groove 4221c comprises a number of bottom surfaces 4222c and a number of ramps 4223c. The bottom surface 4222c is alternately connected with the inclined surface 4223c in sequence. The inclined surface 4223c is inclined in the rotation direction of the rotation cover 422 c.

Specifically, the inclined surface 4223c is inclined to the elastic force direction of the elastic member 41. The bottom surface 4222c is perpendicular to the elastic direction of the elastic member 41. The third adjustment member 421c may abut on the sloped surface 4223c or the bottom surface 4222 c. When the third regulating member 421c abuts against the inclined surface 4223c, the inclined surface 4223c forms a guiding sliding action on the third regulating member 421c, and the urging force of the rotary cover 422c on the third regulating member 421c varies as the third regulating member 421c slides. When the third regulating member 421c abuts against the bottom surface 4222c, the urging force of the rotary cover 422c to the third regulating member 421c does not change as the third regulating member 421c slides.

With the above arrangement, the rotating cover 422c changes the urging force to the third regulating member 421c by the inclined surface 4223c, so that the third regulating member 421c is changed in height toward or away from the second end 32. When the height position of the third adjusting member 421c is required to be unchanged, the rotating cover 422c can enable the third adjusting member 421c to abut against the bottom surface 4222c, the third adjusting member 421c cannot be pushed by the elastic force of the elastic member 41 to slide, and the third adjusting member 421c can be kept stable. Thus, the distance between the third adjusting member 421c and the second end 32 can be adjusted or maintained by rotating the cover 422c, and the elastic force of the elastic member 41 can be set more conveniently, so that the operation force of the rocker device 10 can be adjusted more flexibly.

The number and distribution of the bottom surfaces 4222c and the slopes 4223c may be set according to actual conditions, and are not limited herein. The bottom surface 4222c may be two, three, four or more. The inclined surface 4223c may be one, two, three, or more than three, etc. In one embodiment, the rail groove 4221c includes a first bottom surface 4222c, a second bottom surface 4222c, and an inclined surface 2111a. The distance from the first bottom surface 4222c to the second end 32 is greater than the distance from the second bottom surface 4222c to the second end 32 along the direction of the rotating cap 422c toward the second end 32. One end of the inclined surface 2111a is connected to the first bottom surface 4222c. The other end of the inclined surface 2111a is connected to the second bottom surface 4222c.

In an embodiment, a side of the third regulating member 421c facing the rotary cover 422c is provided with an abutment block 4211c. The rotary cover 422c rotates relative to the abutment block 4211c. Therefore, the third adjusting member 421c can smoothly abut against and slide on the rotating cover 422c, so that the rotating cover 422c can more easily drive the third adjusting member 421c to move close to or away from the second end 32, thereby improving the use experience of the rocker device 10.

The material of the contact block 4211c may be different from or the same as that of the third adjuster 421c, and is not limited thereto. For example, the abutment block 4211c may be made of a material that is more wear-resistant than the third adjustment member 421c, and the specific material thereof is not limited thereto. The shape of the abutment block 4211c may be set according to actual conditions.

In one embodiment, the abutment 4211c is hemispherical, which is more beneficial for the rotation of the rotary cover 422c, reducing friction resistance and enhancing the use experience of the rocker device 10. As another embodiment, the abutment block 4211c is rectangular, and the abutment between the abutment block 4211c and the track groove 4221c is more stable. Of course, in other embodiments, the abutment block 4211c may have other shapes, which are not limited herein.

In one embodiment, the third adjustment member 421c includes a guide (not shown). A plurality of guides extend through the second end 32. The guide member can play a guiding role. When the driving member drives the third adjusting member 421c to move toward the second end 32, the guiding member defines the compression direction of the elastic member 41, so that the elastic force of the elastic member 41 is more stable, and the stability of the operating force of the rocker device 10 is further improved.

The guide member may have any structure, and may be guided by a guide member, and the specific structure thereof is not limited. In one embodiment, the third adjustment member 421c includes a guide post 4212c. The guide post 4212c is threaded through the second end 32. The elastic member 41 is sleeved on the guide post 4212c. When the driving member drives the guiding pin 4212c to penetrate the second end 32, the guiding pin 4212c compresses the elastic member 41, and changes the elastic force of the elastic member 41. By arranging the guide posts 4212c, the elastic force of the elastic piece 41 is more stable, and the stability of the operation force of the rocker device 10 is further improved.

In another embodiment, the third adjusting member 421c includes a guide frame (not shown). The guide frame extends through the second end 32. The elastic member 41 is located in the guide frame. When the driving member drives the guide frame to penetrate through the second end 32, the guide frame compresses the elastic member 41, and the elastic force of the elastic member 41 is changed. By arranging the guide frame, the elastic force of the elastic piece 41 is more stable, and the stability of the operation force of the rocker device 10 is further improved.

Therefore, the guide posts 4212c or the guide frames can play a role in guiding, so that the elastic force of the elastic member 41 is not deviated, and the stability of the operation force of the rocker device 10 is improved. The abutment block 4211c may be disposed on a side of the guide post 4212c away from the second end 32. Alternatively, the abutment block 4211c may be disposed on a side of the guide frame remote from the second end 32.

In an embodiment, a side of the driving member facing away from the third adjusting member 421c is provided with a driving portion 4224c. The driving member is moved by the driving portion 4224c so that the driving member acts on the third regulating member 421c. The specific structure of the driving portion 4224c is not limited, and the driving member may be driven to move.

Turning back to fig. 1, 2, 7, 9, 10 and 12, in one embodiment, the rocker device 10 includes a rocker arm assembly 2 and a rocker arm 21. The rocker 21 is provided to the rocker arm assembly 2. The rocker 21 is detachable or fixed to the rocker arm assembly 2. As in the present embodiment, the rocker 21 is fixedly connected to the rocker arm assembly 2. When the user operates the rocker 21, the rocker arm assembly 2 rotates along with the tilting operation of the rocker 21, so as to meet the requirements of the rocker 21 for rotating in different directions and angles.

In one embodiment, the rocker arm assembly 2 includes a first rocker arm 22, a second rocker arm 23, and the rocker arm 21 described above. The pressing portion 211 is provided at an end of the first rocker arm 22 facing the biasing member 3. The first rocker arm 22 rotates in the first direction X to the second rocker arm 23, i.e. the first rocker arm 22 is rotatable relative to the second rocker arm 23 in the first direction X. The second rocker arm 23 rotates in the second direction Y to the support base 1. I.e. the second rocker arm 23 is rotatable in the second direction Y relative to the support base 1, wherein the first rocker arm 22 rotates with the rotation of the second rocker arm 23. The first direction X and the second direction Y are arranged orthogonally. In the above manner, the first rocker arm 22 and the second rocker arm 23 are rotatable in the first direction X and the second direction Y around the common center.

In one embodiment, the second rocker arm 23 is formed with an open mounting cavity 233. The first rocker arm 22 is pivoted at both ends thereof in the mounting cavity 233 such that the first rocker arm 22 is pivoted to the second rocker arm 23 in the first direction X. The opening is for passing through the rocker 21.

Specifically, the rocker 21 includes a connection 212. The connecting portion 212 is connected to an end of the first rocker arm 22 facing away from the biasing member 3. The connecting portion 212 and the pressing portion 211 are disposed opposite to each other at the upper and lower ends of the first rocker arm 22. The connection 212 may be detachable or fixed to the first swing arm 22. The connecting portion 212 protrudes from the surface of the second rocker arm 23 through the opening. By integrating the connecting portion 212 and the pressing portion 211 of the rocker 21 onto the first rocker 22, the rocker assembly 2 is more facilitated to move, rotational friction is reduced, and assembly components are reduced. In addition, the connection portion 212 facilitates subsequent mounting of the handle or related housing, and is not limited herein.

In one embodiment, the first swing arm 22 is provided at both ends with a first fixed shaft 221. The two ends of the first rocker arm 22 directly rotate to the second rocker arm 23 through the first fixed shaft 221, so that the friction resistance between the first rocker arm 22 and the second rocker arm 23 is reduced. The second swing arm 23 is provided at both ends with a second fixed shaft 231. The two ends of the second rocker arm 23 directly rotate to the supporting seat 1 through the second fixing shaft 231, so that the friction resistance between the second rocker arm 23 and the supporting seat 1 is reduced. That is, by providing the first fixing shaft 221 and the second fixing shaft 231, friction resistance between the rocker arm assembly 2 and the supporting seat 1 can be reduced, so that the rocker 21 can be reset more accurately, and the possibility of expanding dead zone of the rocker 21 can be reduced.

Of course, in other embodiments, the rocker arm assembly 2 may also include two first bearing members 222. The first bearing member 222 is embedded in the second rocker arm 23. The first bearing member 222 is sleeved on the corresponding first fixing shaft 221. The first rocker arm 22 is rotated in the first direction X relative to the second rocker arm 23 by the first fixed shaft 221 cooperating with the first bearing member 222. The rocker arm assembly 2 includes two second bearing members 232. The second bearing member 232 is embedded in the supporting seat 1. The second bearing member 232 is sleeved on the corresponding second fixing shaft 231. The second swing arm 23 is rotated in the second direction Y with respect to the support base 1 by the second fixing shaft 231 cooperating with the second bearing member 232.

Through the above manner, the rocker arm assembly 2 promotes the smoothness of rotation of the first rocker arm 22 relative to the second rocker arm 23 and the smoothness of rotation of the second rocker arm 23 relative to the supporting seat 1 by adding the two first bearing pieces 222 and the two second bearing pieces 232 at the same time, so that the friction resistance is effectively reduced, the smoothness of rotation of the rocker arm assembly 2 is further promoted, the rocker arm assembly 2 almost does not form additional friction resistance with the supporting seat 1, the rocker arm 21 is reset more accurately, and the possibility of dead zone expansion of the rocker arm 21 is reduced. Namely, the pressing part 211 is directly contacted with the first end 31, and meanwhile, the rocker arm assembly 2 is sleeved with the first fixed shaft 221 and the second fixed shaft 231 through the first bearing piece 222, and the two parts are sleeved with the second fixed shaft 231, so that the combined action of the two parts further effectively reduces friction resistance, further enables the rocker 21 to reset more accurately, and reduces the possibility of expanding dead zones of the rocker 21.

In one embodiment, the rocker device 10 includes a circuit board 7. The rocker device 10 may be provided with at least two-dimensional hall assemblies 81 or at least one three-dimensional hall assembly (not shown). When the rocker device 10 includes at least two-dimensional hall assemblies 81, at least one of the two ends of the first rocker arm 22 is provided with a first magnet. The circuit board 7 is provided with a first hall sensor. The first hall sensor number corresponds to the first magnet number. The first Hall sensor is matched with the first magnet. When the first rocker arm 22 drives the first magnet to rotate, the distance from the first magnet to the first hall sensor changes to change the magnetic flux induced by the first hall sensor, namely, the magnetic flux changes, and the magnetic flux changes after being induced by the first hall sensor and then are converted into voltage changes, so that different signals are output, and different increasing and decreasing functions are realized.

At least one of the two ends of the second rocker arm 23 is provided with a second magnet, and the circuit board 7 is provided with a second hall sensor. The number of the second Hall sensors corresponds to the number of the second magnets. The principle of the second hall sensor and the second magnet are the same as that of the first hall sensor and the first magnet, and the second hall sensor and the second magnet are not described in detail herein.

In other embodiments, when the rocker apparatus 10 includes at least one three-dimensional hall assembly, a side of the second end 32 facing away from the rocker 21 is provided with a third magnet. The third magnet and the three-dimensional hall sensor are all located on the central axis when the rocker 21 is in the neutral state. The three-dimensional Hall sensor can detect three-dimensional coordinates of three different positions of the third magnet space. It should be noted that the two-dimensional hall assembly 81 and the three-dimensional hall assembly mentioned above are conventional means for those skilled in the art, and are not limited herein.

Referring back to fig. 2, 5 and 6, in the actual process, because the biasing member 3 rotates in a lever manner, in the process of rotating the rocker 21 in different directions, there may be different moments applied to the rocker 21, and thus different force values felt by a user, the inclined surface 2111a in the pressing portion 211 may be changed, so as to ensure that the moments applied by the rocker 21 are consistent when the rocker 21 rotates in different directions. The specific arrangement of the inclined surface 2111a may be determined according to the actual requirements, and is not limited herein. In addition, the support base 1 may be integrally formed. Alternatively, the supporting seat 1 is formed by splicing a plurality of parts. That is, the formation manner of the support base 1 is not limited herein.

Compared with the prior art, the rocker device in the embodiment comprises a supporting seat, a rocker, a biasing member and a reset assembly. The rocker is provided with a pressing part. The biasing member includes oppositely disposed first and second ends. The first end is in contact with the pressing portion. The reset component is arranged at the second end. When the pressing part presses the first end of the biasing piece, the second end of the biasing piece deflects, and the reset assembly drives the second end of the biasing piece to reset. By the mode, the reset component is arranged at the second end of the biasing piece, but not at the first end of the biasing piece, so that the rocker and the reset mechanism are prevented from being coaxially arranged, and the assembly difficulty of the rocker device is reduced; when the reset component is bad, the reset component is convenient to detach and replace. In addition, the biasing element is arranged on the supporting seat in a lever mode, the reset component is arranged at the second end of the biasing element, the pressing part of the rocker is directly contacted with the first end of the biasing element, the biasing element is not required to be coaxially arranged with the reset mechanism, the contact area between the biasing element and the supporting seat is reduced, the friction resistance between the biasing element and the supporting seat is further reduced, the accuracy of the operation of the rocker is improved, and the use experience of the rocker device is further improved; meanwhile, the structure of the rocker does not need to be changed.

The terms "first," "second," "third," and the like in this application are used for descriptive purposes only and are not to be construed as indicating the number of features indicated. Thus, a feature defining "a first", "a second", and "a third" may explicitly or implicitly include at least one such feature. All directional indications (such as up, down, left, right, front, back … …) in the embodiments of the present application are merely used to explain the relative positional relationship, movement, etc. between the components in a particular gesture (as shown in the drawings), and if the particular gesture changes, the directional indication changes accordingly. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion. A process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those listed but may alternatively include other steps or elements not listed or inherent to such process, method, article, or apparatus.

The foregoing description is only exemplary embodiments of the present application and is not intended to limit the scope of the present application, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present application, or direct or indirect application in other related technical fields are included in the scope of the present application.

Claims (23)

1. A rocker device, comprising:

a support base;

a rocker provided with a pressing part;

a biasing member including a first end and a second end disposed opposite to each other, the first end being in contact with the pressing portion;

the reset component is arranged at the second end;

when the pressing part presses the first end of the biasing piece, the second end of the biasing piece deflects, and the reset assembly drives the second end of the biasing piece to reset.

2. The rocker device of claim 1, wherein the biasing member is pivotally connected to the support base by a pivot.

3. The rocker device of claim 2, wherein the shaft is positioned between and offset from the first and second ends.

4. The rocker device of claim 2, wherein one of the two ends of the biasing member and the two ends in the support base is provided with a rotating shaft, and the other is provided with a rotating shaft groove, and the rotating shaft rotates in the rotating shaft groove.

5. The rocker device of claim 1, wherein an end face of the first end facing the pressing portion is provided with a hard layer.

6. The rocker device according to claim 1, wherein the pressing portion includes a bottom wall, and an outer circumference of the bottom wall is provided with an inclined surface.

7. The rocker device of claim 1, wherein the return assembly includes a resilient member for returning the biasing member and an adjustment assembly for defining the resilient member.

8. The rocker device of claim 7, wherein the adjustment assembly is adjustably secured to the support base for adjusting the spring force of the spring member.

9. The rocker device of claim 8, wherein the adjusting assembly comprises a first adjusting member passing through the second end and connected to the support base, the elastic member is sleeved on the first adjusting member, one end of the elastic member contacts one end of the first adjusting member away from the second end, and the other end contacts a side of the second end away from the support base.

10. The rocker device of claim 9, wherein the first adjustment member extends through the second end and is threadably coupled to the support base.

11. The rocker device of claim 10, wherein the adjustment assembly includes a first connector disposed within the support base, the first adjuster and the first connector being threadably coupled.

12. The rocker device of claim 8, wherein the adjustment assembly comprises a second adjustment member and a press block, the second adjustment member is disposed through one end of the press block and is connected to the second end, one end of the elastic member is connected to the other end of the press block, and the other end of the elastic member is connected to the support base.

13. The rocker device of claim 12 wherein the second adjustment member is threaded into the second end.

14. The rocker device of claim 13, wherein the adjustment assembly includes a second connector disposed within the second end, the second connector being threadably coupled to the second adjustment member;

the second adjusting piece is sleeved with at least one clamping ring, and the clamping ring is located between the pressing block and the second adjusting piece.

15. The rocker device of claim 12, wherein the second end is provided with a limit post parallel to the second adjustment member, the press block passing through the limit post.

16. The rocker device of claim 8, wherein the adjusting assembly comprises a third adjusting member and a driving member, the third adjusting member is disposed between the second end and the third adjusting member, one end of the elastic member is connected to the third adjusting member away from the second end, the other end of the elastic member is connected to the second end, the driving member is disposed on a side of the third adjusting member away from the elastic member, and the driving member can drive the third adjusting member to move towards the second end for changing the elastic force of the elastic member.

17. The rocker device of claim 16, wherein the driving member includes a rotary cover rotatable relative to the third adjustment member to adjust the amount of spring force of the spring member.

18. The rocker device of claim 17, wherein the swivel cap has a track groove disposed therein, the third adjustment member sliding in and abutting the track groove.

19. The rocker device of any one of claims 1-18, wherein the rocker device comprises a rocker arm assembly and the rocker arm, the rocker arm being fixedly connected to the rocker arm assembly, the rocker arm assembly rotating with the rocker arm dumping operation.

20. The rocker device of claim 19, wherein the rocker arm assembly comprises a first rocker arm and a second rocker arm, the pressing portion is disposed at an end of the first rocker arm facing the biasing member, the first rocker arm rotates in a first direction to the second rocker arm, the second rocker arm rotates in a second direction to the support base, and the first direction and the second direction are disposed orthogonally.

21. The rocker device of claim 20 wherein the second rocker arm defines an open mounting cavity, the first rocker arm having two ends that rotate within the mounting cavity;

The rocker comprises a connecting part, wherein the connecting part is connected with the first rocker arm and protrudes out of the surface of the second rocker arm through the opening.

22. The rocker device of claim 21, wherein the first rocker arm has first stationary shafts at opposite ends thereof, and the rocker arm assembly includes two first bearing members that are sleeved on the first stationary shafts to rotate the first stationary shafts relative to the second rocker arm;

the rocker arm assembly comprises two second bearing parts, wherein the second bearing parts are sleeved on the second fixed shaft, so that the second fixed shaft rotates relative to the supporting seat.

23. The rocker device of claim 20, comprising a circuit board, at least one of the two ends of the first rocker arm being provided with a first magnet, the circuit board being provided with a first hall sensor that cooperates with the first magnet;

at least one of the two ends of the second rocker arm is provided with a second magnet, and the circuit board is provided with a second Hall sensor matched with the second magnet;

or, a side surface of the second end, which is away from the rocker, is provided with at least one third magnet, and the circuit board is provided with a three-dimensional Hall sensor matched with the third magnet.