阅读说明：本技术 磁感应指拨用摇杆 (Rocker for magnetic induction finger-dialing ) 是由 褚锦雄 于 2020-04-10 设计创作，主要内容包括：一种磁感应指拨用摇杆,包含一主容壳,其包含一底壳及一上盖；一承架,其一固定端固定于该底壳一侧,该固定端连结于一承接环；一活动球体,其设于该承接环,该活动球体下方设有一活塞槽；一摇杆本体,其固定于该活动球体上方；一弹性活塞件,其包含一接杆、一弹性盘、一复位弹簧及一磁铁,该接杆穿设于该活塞槽,该弹性盘固定于该接杆下方,该复位弹簧固定于该活动球体及该弹性盘间,该磁铁对应固定该弹性盘；及一磁感应组件,其设于该磁铁下方。本发明通过磁感应设计,进而通过拇指驱控的小型摇杆中达到信号稳定且具有高使用寿命的优势。(A rocker for magnetic induction finger-dialing comprises a main containing shell, a bottom shell and an upper cover; a bearing frame, a fixed end of which is fixed on one side of the bottom shell and is connected with a bearing ring; a movable ball body arranged on the bearing ring, wherein a piston groove is arranged below the movable ball body; a rocker body fixed above the movable sphere; an elastic piston part, it includes a connecting rod, an elastic disc, a reset spring and a magnet, the connecting rod is worn and set up in the piston groove, the elastic disc is fixed below the connecting rod, the reset spring is fixed between the flexible sphere and the elastic disc, the magnet is fixed the elastic disc correspondingly; and a magnetic induction component arranged below the magnet. The invention achieves the advantages of stable signal and long service life through the magnetic induction design and the thumb-driven small rocker.)

1. A magnetic induction indicates to dial and uses rocker, its characterized in that contains:

a main housing, which comprises a bottom shell and an upper cover; wherein the upper part of the bottom shell is provided with an opening, a containing chamber is arranged in the opening, and one side of the bottom shell is provided with a fixing part; the upper cover is correspondingly sealed in the opening of the bottom shell, a through hole is formed in the upper side of the upper cover, and an annular groove surrounding the through hole is formed in the outer side wall surface of the upper cover in a concave mode;

a bearing frame, which is provided with a fixed end, a bearing ring and a movable end; wherein the fixed end is correspondingly fixed on the fixed part of the bottom shell; wherein the adapting ring is connected to the fixed end and is positioned below the through hole; wherein the movable end is connected with one side of the bearing ring, and the movable end extends downwards to form a pressing rod;

a movable ball body which is correspondingly arranged between the bearing ring and the through hole of the upper cover and can freely rotate between the bearing ring and the through hole, a piston groove is arranged below the movable ball body, and a fixed groove is arranged above the movable ball body;

the rocker body can be detachably fixed on the fixed groove of the movable ball body, and can be pushed by the thumb of a human body correspondingly to drive the movable ball body to rotate and can be pressed downwards by the thumb of the human body to push the movable ball body and the movable end of the bearing ring to move downwards;

a pressing signal device which is correspondingly arranged in the main containing shell, is correspondingly positioned below the pressing rod and can be pressed by the pressing rod to output a driving signal for indicating the pressing;

an elastic piston member including a connecting rod, an elastic disc, a return spring and a magnet; the connecting rod correspondingly penetrates through the piston groove of the movable sphere and can move up and down in the piston groove; the elastic disc is fixed below the connecting rod and is arranged on the bottom wall of the bottom shell in a leaning way, and the lower side of the elastic disc is concavely provided with an embedding groove; two ends of the reset spring are respectively fixed on the movable ball body and the elastic disc; the magnet is correspondingly fixed in the embedding groove; and

and the magnetic induction component is correspondingly arranged on the lower side of the bottom shell and corresponds to the lower part of the magnet, and the magnetic induction component judges the rotation direction of the movable ball body by sensing the change of the magnetic force of the magnet and outputs a driving signal for expressing the rotation direction.

2. The magnetically inductive thumbing stick of claim 1, further comprising an indicator light module disposed in the annular recess of the top cover.

3. The magnetically inductive dip stick of claim 2, wherein the indicator module comprises an annular light panel, and the annular light panel is provided with a plurality of LED light elements at least representing the up, down, left, and right directions.

4. The magnetically inductive fingering joystick as claimed in claim 3, wherein a cover is further disposed on the annular light plate.

Technical Field

The invention relates to a rocker for magnetic induction finger-dialing; more particularly, the present invention relates to a small joystick for controlling the thumb using magnetism as an induction method.

Background

In various electronic products, it is often seen that a controller in the form of a joystick is used as an operation means, and the joystick has various specifications, sizes and types, and a wide application range.

While the conventional rocker is mainly operated by hand holding, and another type of rocker with a smaller size is mainly controlled by finger-dialing, in this type of finger-dialing rocker mechanism, a contact mechanism is mainly arranged in each direction of the rocker to further generate a signal through impact in the process of operation to judge the moving direction of the rocker, and the rocker type has the defect of easy abrasion and the like due to long-term use.

Therefore, in view of the foregoing, the inventor of the present invention has devised and designed a magnetic induction thumbing joystick to improve the shortcomings of the prior art, thereby enhancing the industrial application.

Disclosure of Invention

In view of the above-mentioned shortcomings of the prior art, the present invention provides a magnetic induction finger-dialing rocker with patent requirements of novelty, advancement and industrial applicability, so as to overcome the difficulties in the prior art.

In order to achieve the above object, the present invention provides a magnetic sensing joystick, comprising: a main housing, which comprises a bottom shell and an upper cover; wherein the upper part of the bottom shell is provided with an opening, a containing chamber is arranged in the opening, and one side of the bottom shell is provided with a fixing part; the upper cover is correspondingly sealed in the opening of the bottom shell, a through hole is formed in the upper side of the upper cover, and an annular groove surrounding the through hole is formed in the outer side wall surface of the upper cover in a concave mode; a bearing frame, which is provided with a fixed end, a bearing ring and a movable end; wherein the fixed end is correspondingly fixed on the fixed part of the bottom shell; wherein the adapting ring is connected to the fixed end and is positioned below the through hole; wherein the movable end is connected with one side of the bearing ring, and the movable end extends downwards to form a pressing rod; a movable ball body which is correspondingly arranged between the bearing ring and the through hole of the upper cover and can freely rotate between the bearing ring and the through hole, a piston groove is arranged below the movable ball body, and a fixed groove is arranged above the movable ball body; the rocker body can be detachably fixed on the fixed groove of the movable ball body, and can be pushed by the thumb of a human body correspondingly to drive the movable ball body to rotate and can be pressed downwards by the thumb of the human body to push the movable ball body and the movable end of the bearing ring to move downwards; a pressing signal device which is correspondingly arranged in the main containing shell, is correspondingly positioned below the pressing rod and can be pressed by the pressing rod to output a driving signal for indicating the pressing; an elastic piston member including a connecting rod, an elastic disc, a return spring and a magnet; the connecting rod correspondingly penetrates through the piston groove of the movable sphere and can move up and down in the piston groove; the elastic disc is fixed below the connecting rod and is arranged on the bottom wall of the bottom shell in a leaning way, and the lower side of the elastic disc is concavely provided with an embedding groove; two ends of the reset spring are respectively fixed on the movable ball body and the elastic disc; the magnet is correspondingly fixed in the embedding groove; and a magnetic induction component which is correspondingly arranged at the lower side of the bottom shell and corresponds to the lower part of the magnet, judges the rotation direction of the movable ball body by sensing the change of the magnetic force of the magnet and outputs a driving signal representing the rotation direction.

As a further improvement of the invention, the device further comprises an indicator light module which is correspondingly arranged on the annular groove of the upper cover.

As a further improvement of the present invention, the indicator light module includes an annular light panel, and a plurality of LED light elements at least representing the up, down, left, right directions are disposed on the annular light panel.

As a further improvement of the invention, a cover cap can be further arranged on the annular lamp panel.

Compared with the prior art, the invention has the beneficial effects that:

the magnetic induction finger-dialing rocker provided by the invention is designed mainly through a magnetic induction mechanism, and further has the advantages of stable signal and long service life in a small rocker driven and controlled by a thumb, which cannot be achieved by the prior art.

In order to make the aforementioned objects, technical features, and gains obvious and understandable after practical implementation, preferred embodiments will be described in detail below with reference to the accompanying drawings.

Drawings

FIG. 1 is an external view of a magnetically inductive finger-stick of the present invention;

FIG. 2 is another perspective view of the magnetically responsive thumbstick of the present invention;

FIG. 3 is an exploded view of the magnetic sensing finger-stick of the present invention;

FIG. 4 is a cross-sectional view of the magnetic sensing joystick of the present invention;

FIG. 5 is a cross-sectional view of an embodiment of the present invention with a magnetically inductive joystick.

Description of the symbols:

main container shell (10)

Bottom shell (11)

Fixed part (111)

Upper cover (12)

Perforation (121)

Ring groove (122)

Support (20)

Fixed end (21)

Bearing ring (22)

Movable end (23)

Pressing bar (231)

Movable ball (30)

Piston groove (31)

Fixed slot (32)

Rocker body (40)

Pressing signal device (50)

Elastic piston (60)

Connecting rod (61)

Elastic dish (62)

Embedding groove (621)

Reset spring (63)

Magnet (64)

Magnetic induction component (70)

Indicator light module (80)

Ring lamp panel (81)

LED light (82)

Cover (83)

Detailed Description

The advantages and features of the invention and methods of accomplishing the same will be understood more readily by reference to the following detailed description of exemplary embodiments and accompanying drawings. This invention may, however, be embodied in different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art, and the present invention will only be defined by the appended claims. In the drawings, the sizes and relative sizes of components or elements are exaggerated for clarity. Like reference numerals refer to like elements throughout the specification. As used hereinafter, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the relevant art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

The exemplary embodiments will be described in detail below with reference to the drawings. These embodiments may, however, be embodied in different forms and should not be construed as limiting the scope of the invention. These embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

Referring to fig. 1 to 5, the present invention relates to a magnetic induction thumbing stick, which includes: a main container shell (10), a bearing frame (20), a movable ball body (30), a rocker body (40), a pressing signal device (50), an elastic piston piece (60), a magnetic induction component (70) and an indicator light module (80).

The main housing (10) comprises a bottom shell (11) and an upper cover (12); wherein the upper part of the bottom shell (11) is provided with an opening, a containing chamber is arranged in the opening, and one side of the bottom shell (11) is provided with a fixing part (111); the upper cover (12) is correspondingly sealed with the opening of the bottom shell (11), a through hole (121) is arranged on the upper side of the upper cover (12), and an annular groove (122) surrounding the through hole (121) is concavely arranged on the outer side wall surface of the upper cover (12).

The support frame (20) has a fixed end (21), a receiving ring (22) and a movable end (23); wherein the fixed end (21) is correspondingly fixed on the fixed part (111) of the bottom shell (11); wherein the bearing ring (22) is connected to the fixed end (21) and positioned below the through hole (121); wherein the movable end (23) is connected to one side of the bearing ring (22), and the movable end (23) is formed with a pressing rod (231) extending downwards.

The movable ball (30) is correspondingly clamped between the bearing ring (22) and the through hole (121) of the upper cover (12) and can freely rotate between the bearing ring and the through hole, a piston groove (31) is recessed below the movable ball (30), and a fixing groove (32) is arranged above the movable ball (30).

The rocker body (40) is detachably fixed on the fixing groove (32) of the movable sphere (30), and the rocker body (40) can be pushed by a thumb of a human body correspondingly to drive the movable sphere (30) to rotate and can be pressed downwards by the thumb of the human body to push the movable sphere (30) and the movable end (23) of the bearing ring (22) to move downwards.

The pressing signal device (50) is correspondingly arranged in the main containing shell (10) and correspondingly positioned below the pressing rod (231), and can be pressed by the pressing rod (231) of the movable end (23) when the movable end (23) moves downwards, so that a driving signal for indicating the pressing is output.

The elastic piston member (60) includes a connecting rod (61), an elastic disc (62), a return spring (63) and a magnet (64); the connecting rod (61) is correspondingly arranged in the piston groove (31) of the movable sphere (30) in a penetrating way and can move up and down in the piston groove (31); the elastic disc (62) is fixed below the connecting rod (61) and is close to the bottom wall of the bottom shell (11) and is an elastic disc-shaped body, and the lower side of the elastic disc (62) is concavely provided with an embedding groove (621); two ends of the return spring (63) are respectively fixed on the movable sphere (30) and the elastic disc (62), and the return spring (63) can provide a return elastic return force after the movable sphere (30) moves downwards or rotates; the magnet (64) is correspondingly fixed in the embedding groove (621).

The magnetic induction component (70) is correspondingly arranged on the lower side of the bottom shell (11) and is correspondingly arranged below the magnet (64), and the rotating direction of the movable ball body (30) is judged by sensing the change of the magnetic force of the magnet (64), so that a driving signal representing the rotating direction can be further output.

Foretell pilot lamp module (80) is corresponding to locate this annular groove (122) of this upper cover (12), contains an annular lamp plate (81), is provided with a plurality of LED lamp spare (82) that represent upper and lower, left and right equidirectional at least on this annular lamp plate (81), and further can be equipped with a shroud (83) on this annular lamp plate (81).

The magnetic induction finger-dialing rocker of the invention mainly achieves the advantages of stable signal and long service life in a small rocker driven and controlled by a thumb through the design of a magnetic induction mechanism, which is beyond the reach of the prior art.

The above-mentioned embodiments are only used to illustrate the implementation of the present invention and to explain the technical features of the present invention, and are not used to limit the protection scope of the present invention. Any modifications or equivalent arrangements which may occur to those skilled in the art and which fall within the spirit and scope of the appended claims should be construed as limited only by the scope of the claims.