CN204833173U - Action sensing structure and use motion device of this action sensing structure - Google Patents

Abstract

The utility model relates to an action sensing structure of sensing user's operation action, it includes operating parts, sensing element and circuit board. Be provided with the sensing circuit pattern on the circuit board. Sensing element with sensing circuit pattern electricity is connected. The operating parts drive sensing element with the circuit board is movable relatively in order to change the electricity volume output of circuit board. The utility model discloses still relate to the motion device that uses this action sensing structure.

Description

Action sensing structure and use the sports apparatus of this action sensing structure

Technical field

The utility model relates to a kind of action sensing structure and uses the sports apparatus of this action sensing structure.

Background technology

Existing rocker structure generally includes multiple sensitive axis rotated around different directions, and carrys out sense operation action by arranging potentiometer in the end of sensitive axis.But the general all larger and assembling complexity of the volume of potentiometer, causes that whole action sensing structural volume is huge and assembly difficulty is high.

Summary of the invention

Given this, the action sensing structure providing a kind of structure simple, easy to assembly is necessary.

For sensing an action sensing structure for the operational motion of user, comprise operating parts, sensing element and circuit board.Described circuit board is provided with sensing circuit pattern.Described sensing element is electrically connected with described sensing circuit pattern.Described operating parts drives described sensing element and described circuit board relative motion to export with the electrical quantities changing described circuit board.

Preferably, described sensing circuit pattern comprises resistance section and conductive part.Described sensing element comprises at least two conductive contacts.Described conductive contact respectively with this resistance section and conductive part sliding contact with by resistance section and conductive part mutual conduction.

Preferably, this resistance section and conductive part are two sections of semi arches around the same center of circle.The radius of this resistance section is greater than the radius of conductive part.

Preferably, this resistance section is carbon brush.This conductive part is conductive film.

Preferably, described sensing element comprises at least two conductive contacts connecting body and stretch from described connection body epirelief.Described conductive contact and described circuit board elastic are conflicted.

Preferably, described sensing element and described circuit board can relatively rotate under the driving of described operating parts.

Preferably, described circuit board also comprises the leading-out terminal be connected with sensing circuit pattern.Described sensing element rotates the electrical quantities to change sensing circuit pattern relative to described sensing circuit pattern.This leading-out terminal by because of described in relatively rotate cause electrical quantities change derive.

Preferably, described operating parts at least one sensitive axis of comprising rocking bar and being connected with described rocking bar.Described sensing element and described circuit board are arranged at least one end of described sensitive axis.Described rocking bar drives described sensitive axis to rotate, thus orders about described sensing element and described circuit board relatively rotates.

Preferably, described operating parts comprise rocking bar, the first sensitive axis of rotating around first direction and the second sensitive axis rotated around second direction.Described action sensing structure also comprise corresponding first sensitive axis at least one end arrange the first sensing element and first circuit board, corresponding second sensitive axis at least one end arrange the second sensing element and second circuit board.This first sensitive axis is connected with rocking bar and rotates around first direction under the drive of rocking bar.This second sensitive axis is connected with rocking bar and rotates around second direction under the drive of rocking bar.This first sensitive axis orders about described first sensing element and first circuit board relatively rotates.Second sensitive axis orders about the second sensing element and second circuit board relatively rotates.The component motion that this first circuit board is rotated around first direction by the first sensitive axis sensing rocking bar.The component motion that this second circuit board is rotated around second direction by the second sensitive axis sensing rocking bar.

Preferably, described first sensing element is arranged at least one end of described first sensitive axis and is electrically connected with described first circuit board.Described second sensing element is arranged at least one end of described second sensitive axis and is electrically connected with described second circuit board.

Preferably, described first sensitive axis and the second sensitive axis arranged in a crossed manner.

Preferably, this first sensitive axis comprises the first rotating shaft, the first detecting part and the first connecting portion.Described rocking bar drives described first sensitive axis to rotate by the first connecting portion.

Preferably, the direction that this first rotating shaft extends is defined as the length direction of this first rotating shaft.This first detecting part is arranged on one end of this first rotating shaft.Described first sensing element is arranged on this first detecting part.This first connecting portion be arranged on the first rotating shaft along its length direction opposite end between.

Preferably, described rocking bar is connected with described first connecting portion.

Preferably, described rocking bar is flexibly connected with described first connecting portion.

Preferably, the uncovered link slot extended along the first shaft length direction is offered in this first connecting portion.A pivot joint rotation direction is defined perpendicular to the first shaft length direction.This link slot is along offering the connecting through hole coaxially arranged for a pair in two side relative in this pivot joint rotation direction respectively.This rocking bar comprises rotation section and handle.A pair pivot protrusion is extended in the opposite direction along same axis in this rotation section.This pivot protrusion is rotationally connected respectively in connecting through hole.This handle extends along the direction perpendicular to pivot protrusion place axis.

Preferably, this second sensitive axis comprises the second rotating shaft, the second connecting portion and the second detecting part.Described rocking bar drives described second sensitive axis to rotate by described second detecting part.

Preferably, the direction that this second connecting portion extends is defined as the length direction of this second connecting portion.This second rotating shaft is stretched out by the opposite end of the second connecting portion along its length direction respectively.This second connecting portion offers an assembling through hole along its length direction.The handle of this rocking bar passes from the assembling through hole the second connecting portion the second sensitive axis to be enclosed within rocking bar.

Preferably, this second connecting portion is dome-shaped.This first connecting portion is housed in the space below dome-shaped second connecting portion.

A kind of sports apparatus, it comprises power source, controller and action sensing structure.This power source provides the power needed for motion for sports apparatus.The actual motion that it is sports apparatus that this controller and this power source are connected with the power conversion provided by this power source.This action sensing structure is connected with action throw-over gear with the operational motion sensing user to control the direction of motion that controller carrys out maneuvering motion device.This action sensing structure comprises operating parts, sensing element and circuit board.Described circuit board is provided with sensing circuit pattern.Described sensing element is electrically connected with described sensing circuit pattern.The electrical quantities that described operating parts drives described sensing element and described circuit board to relatively rotate to change described circuit board exports.

Preferably, described sensing circuit pattern comprises resistance section and conductive part.Described sensing element comprises at least two conductive contacts.Described conductive contact respectively with this resistance section and conductive part sliding contact with by resistance section and conductive part mutual conduction.

Preferably, this resistance section and conductive part are two sections of semi arches around the same center of circle.The radius of this resistance section is greater than the radius of conductive part.

Preferably, this resistance section is carbon brush.This conductive part is conductive film.

Preferably, described sensing element comprises at least two conductive contacts connecting body and stretch from described connection body epirelief.Described conductive contact and described circuit board elastic are conflicted.

Preferably, described circuit board also comprises the leading-out terminal be connected with sensing circuit pattern.Described sensing element rotates the electrical quantities to change sensing circuit pattern relative to described sensing circuit pattern.This leading-out terminal by because of described in relatively rotate cause electrical quantities change derive.

Preferably, described operating parts comprise rocking bar, the first sensitive axis of rotating around first direction and the second sensitive axis rotated around second direction.Described action sensing structure also comprise corresponding first sensitive axis at least one end arrange the first sensing element and first circuit board, corresponding second sensitive axis at least one end arrange the second sensing element and second circuit board.This first sensitive axis is connected with rocking bar and rotates around first direction under the drive of rocking bar.This second sensitive axis is connected with rocking bar and rotates around second direction under the drive of rocking bar.This first sensitive axis orders about described first sensing element and first circuit board relatively rotates.Second sensitive axis orders about the second sensing element and second circuit board relatively rotates.The component motion that this first circuit board is rotated around first direction by the first sensitive axis sensing rocking bar.The component motion that this second circuit board is rotated around second direction by the second sensitive axis sensing rocking bar.

Preferably, described first sensing element is arranged at least one end of described first sensitive axis and is electrically connected with described first circuit board.Described second sensing element is arranged at least one end of described second sensitive axis and is electrically connected with described second circuit board.

Relative to prior art, this action sensing structure and use the sports apparatus of this action sensing structure sensitive axis end arrange sensing contact and corresponding circuits plate to realize motion sensing.Because circuit board is more frivolous, so whole action sensing is simple and compact for structure, and circuit board is also easier to be fixed, and assembles up than being easier to.

Accompanying drawing explanation

Fig. 1 is the high-level schematic functional block diagram of the sports apparatus that the utility model embodiment provides.

Fig. 2 is the vertical view of the action sensing structure that the utility model embodiment provides.

Fig. 3 is the inner structure vertical view after the structure of action sensing shown in Fig. 2 removes shell.

Fig. 4 is the decomposition texture schematic diagram of the structure of action sensing shown in Fig. 2.

Fig. 5 is the cut-open view of the structure of action sensing shown in Fig. 2 along V-V line.

Main element symbol description

Sports apparatus	1
		Power source	10
Controller	20
		Action sensing structure	30
Operating parts	36
		Sensing element	37
Circuit board	38
		Shell	300
First sensitive axis	310
		Second sensitive axis	320
First circuit board	330
		Second circuit board	340
Rocking bar	350
		First sensitive axis	310
First sensing element	312
		First rotating shaft	313
First detecting part	314
		First connecting portion	315
Link slot	316
		Connecting through hole	317
Opening	318
		Passage	319
First sensing element	312
		Connect body	3120
Conductive contact	3122
		Contact through-hole	3123
Connection bump	3124
		Second sensing element	322
Second rotating shaft	323
		Second connecting portion	324
Second detecting part	325
		Assembling through hole	326
Rotation section	351
		Handle	352
Body	353
		Pivot protrusion	354
Sensing circuit pattern	331
		Leading-out terminal	332
Resistance section	333
		Conductive part	334
End face	301
		Side	302
Operation through hole	303
		Inwall	304
First side	305
		First inwall	306
Second side	307
		Second inwall	308

Following embodiment will further illustrate the utility model in conjunction with above-mentioned accompanying drawing.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

It should be noted that, when assembly is called as " being fixed on " another assembly, directly can there is assembly placed in the middle in it on another assembly or also.When an assembly is considered to " connection " another assembly, it can be directly connected to another assembly or may there is assembly placed in the middle simultaneously.When an assembly is considered to " being arranged at " another assembly, it can be set directly on another assembly or may there is assembly placed in the middle simultaneously.Term as used herein " vertical ", " level ", "left", "right" and similar statement are just for illustrative purposes.

Unless otherwise defined, all technology used herein and scientific terminology are identical with belonging to the implication that those skilled in the art of the present utility model understand usually.The object of the term used in instructions of the present utility model herein just in order to describe specific embodiment, is not intended to be restriction the utility model.Term as used herein " and/or " comprise arbitrary and all combinations of one or more relevant Listed Items.

As shown in Figure 1, the sports apparatus 1 that the utility model embodiment provides comprises power source 10, controller 20 and action sensing structure 30.This power source 10 is for providing the power needed for motion for sports apparatus 1.This power source 10 may be, but not limited to, motor, engine.This controller 20 is connected with this power source 10, and the power conversion for being provided by this power source 10 is the actual motion of sports apparatus 1.This action sensing structure 30 is connected with controller 20, for sensing the operational motion of user to be carried out the direction of motion of maneuvering motion device 1 by controller 20.This sports apparatus 1 may be, but not limited to, unmanned vehicle, manned vehicle, automobile, electric motor car, model plane, toy.In addition, this action sensing structure 30 should can be also game paddle, for game operation.

Refer to Fig. 2 to Fig. 4, this action sensing structure 30 comprises shell 300 and is arranged on operating parts 36, sensing element 37 and the circuit board 38 in shell 300.This circuit board 38 is provided with sensing circuit pattern 331.This sensing element 37 is electrically connected with sensing circuit pattern 331.The electrical quantities that this operating parts 36 drives sensing element 37 and circuit board 38 to relatively rotate to change circuit board 38 exports.

Be appreciated that described shell 300 can omit, and it is inner that all the other elements coordinated directly are arranged at corresponding electronic installation.

In the present embodiment, this operating parts 36 comprises the first sensitive axis 310 rotated around first direction, the second sensitive axis 320 rotated around second direction and rocking bar 350.The second circuit board 340 of one end setting of the first circuit board 330 that one end that this circuit board 38 comprises corresponding first sensitive axis 310 is arranged and corresponding second sensitive axis 320.This first sensitive axis 310 is connected with rocking bar 350 and rotates around first direction under the drive of rocking bar 350.This second sensitive axis 320 is connected with rocking bar 350 and rotates around second direction under the drive of rocking bar 350.This sensing element 37 comprises and is arranged on the first sensitive axis 310 and corresponds to the first sensing element 312 on the end of first circuit board 330 and be arranged on the second sensing element 322 that the second sensitive axis 320 corresponds to the end of second circuit board 340.This first sensitive axis 310 is slided with first circuit board 330 by the first sensing element 312 and is electrically connected.This second sensitive axis 320 is slided with second circuit board 340 by the second sensing element 322 and is electrically connected.This first circuit board 330 senses by the first sensitive axis 310 component motion that rocking bar 350 rotates around first direction.This second circuit board 340 senses by the second sensitive axis 320 component motion that rocking bar 350 rotates around second direction.In the present embodiment, this first direction is vertical with second direction.

Be appreciated that and the first sensing element 312 can be all set at the two ends of the first sensitive axis 310, correspondingly, be arranged at the first circuit board 330 that the first sensing element 312 is electrically connected at two ends; In like manner, also the second sensing element 322 and second circuit board 340 can be all set at the two ends of the second sensitive axis 320.Separately, first circuit board 330 can be arranged in described first sensitive axis 310, and make described first circuit board 330 support the first sensing element 312; This scheme is equally applicable to the second sensitive axis 320 and second circuit board 340 and the second sensing element 322.

This first sensitive axis 310 comprises the first rotating shaft 313, first detecting part 314 and the first connecting portion 315.This first rotating shaft 313 is an elongated column.The direction that this first rotating shaft 313 extends is defined as the length direction of this first rotating shaft 313.This first detecting part 314 is arranged on this first rotating shaft 313 one end away from the first connecting portion 315.Preferably, this first detecting part 314 is a flat board, and this flat board is approximately perpendicular to the length direction of the first rotating shaft 313.In the present embodiment, this first detecting part 314 is roughly in fan-shaped.

This first connecting portion 315 be arranged on the first rotating shaft 313 along its length direction ends between position.The link slot 316 extended along the first rotating shaft 313 length direction is offered in this first connecting portion 315.This first connecting portion 315 defines a pivot joint rotation direction perpendicular to the first rotating shaft 313 length direction.This link slot 316 offers connecting through hole 317 respectively along in two side relative in this pivot joint rotation direction.This pair connecting through hole 317 is coaxially arranged along this pivot joint rotation direction.This link slot 316 is opened in the top of the first connecting portion 315 and forms opening 318 on this top.This pair connecting through hole 317 forms the through passage 319 to opening 318 respectively at the side near the first connecting portion 315 top.The diameter of this passage 319 is less than the diameter of corresponding connecting through hole 317.In the present embodiment, this first connecting portion 315 is roughly spherical in shape, and cuts away a part of spherical crown respectively at the two side of top and formation connecting through hole 317.

This first sensing element 312 be arranged on the first detecting part 314 away from the first rotating shaft 313 side on the surface.This first sensing element 312 is made up of conductive material.This first sensing element 312 comprises the conductive contact 3122 connecting body 3120 and stretched out by connection body 3120.This connection body 3120 offers at least two contact through-hole be parallel to each other 3123.Each contact through-hole 3123 extends this conductive contact 3122 respectively at the phase the same side along its length direction.This connection body 3120 comprises by the connection bump 3124 that himself edge extends.This first sensing sheet is fixedly connected on this first detecting part 314 by this connection bump 3124.In the present embodiment, keep this contact through-hole 3123 perpendicular to the radius of fan-shaped first detecting part 314 when this first sensing element 312 is connected to the first detecting part 314.

This second sensitive axis 320 comprises the second rotating shaft 323, second connecting portion 324 and the second detecting part 325.The direction that this second connecting portion 324 extends is defined as the length direction of this second connecting portion 324.This second rotating shaft 323 is stretched out towards two opposite sides by the opposite end of the second connecting portion 324 along its length direction respectively.This second connecting portion 324 offers an assembling through hole 326 along the length direction of self.In the present embodiment, this second connecting portion 324 is dome-shaped, to stride across the first sensitive axis 310 when assembling.

This second detecting part 325 is connected to one of them second rotating shaft 323 one end away from the second connecting portion 324.The structure of this second detecting part 325 and shape substantially identical with the first detecting part 314.In the present embodiment, this second detecting part 325 is one perpendicular to the sector flat plate of the second connecting portion 324 length direction.

This second sensing element 322 be arranged on the second detecting part 325 away from the second rotating shaft 323 side on the surface.The structure of this second sensing element 322, material and shape are substantially identical with the first sensing element 312, do not repeat them here.

This rocking bar 350 comprises rotation section 351 and handle 352.A pair pivot protrusion 354 that this rotation section 351 comprises body 353 and extended in the opposite direction along same axis by the relative both sides of this body 353.In the present embodiment, this body 353 is a cylinder, and this pair pivot protrusion 354 is stretched out along the central shaft of cylinder respectively by the upper bottom surface of cylinder and bottom surface center.This handle 352 is extended along the direction perpendicular to pivot protrusion 354 place axis by body 353.In the present embodiment, this handle 352, in column, is radially extended by columniform body 353 side.

This first circuit board 330 comprises sensing circuit pattern 331 and leading-out terminal 332.The conductive contact 3122 of this first sensing element 312 and this sensing circuit pattern 331 slidably Elastic Contact to change the electrical quantities of sensing circuit pattern 331 along with the rotational angle of the first sensitive axis 310.This leading-out terminal 332 is connected with sensing circuit pattern 331, derives for sensing circuit pattern 331 is rotated caused electrical quantities change because of the first sensitive axis 310.

This sensing circuit pattern 331 comprises resistance section 333 and conductive part 334.This resistance section 333 and conductive part 334 are connected to be derived by sensing signal by the sensing circuit being arranged on circuit board inside with conducting terminal.In the present embodiment, this resistance section 333 and conductive part 334 are two sections of semi arches around the same center of circle.Wherein, the radius of this resistance section 333 is greater than the radius of conductive part 334.This resistance section 333 is a carbon brush.This conductive part 334 is a conductive film.

Be appreciated that the forms of motion between described first sensing element 312 and first circuit board 330 can be also relative sliding, equally, between described second sensing element 322 and second circuit board 340, also can be the form of relative sliding.Correspondingly, the structure of described resistance section 333 and conductive part 334 can be the strip or other structures that be arranged in parallel.

The structure of this second circuit board 340, material and shape are substantially identical with first circuit board 330, do not repeat them here.

The side 302 that this shell 300 comprises end face 301 and extended by end face 301 edge.This end face 301 surrounds a receiving space to accommodate this first sensitive axis 310, second sensitive axis 320, first circuit board 330, second circuit board 340 and rocking bar 350 with side 302.This end face 301 offers an operation through hole 303 to expose rocking bar 350.The inwall 304 corresponding with side 302 is extended in the edge of operation through hole 303 in the inner side of this end face 301.This inwall 304 installs through hole to install the first sensitive axis 310 and the second sensitive axis 320 with corresponding side 302 is offered respectively.In the present embodiment, this shell 300 comprises the first inwall 306 of the first side 305 and correspondence for rotating installation first sensitive axis 310 and the second inwall 308 for second side 307 and correspondence of rotating installation second sensitive axis 320.

Seeing also Fig. 2, Fig. 4 and Fig. 5, when assembling, in the body 353 Snap joint groove 316 of this rocking bar 350, and being rotationally connected respectively in the connecting through hole 317 of the first connecting portion 315 both sides by a pair pivot protrusion 354.This rocking bar 350 can rotate in link slot 316 around the pivot joint rotation direction at the central shaft place of this connecting through hole 317.When there is the component motion rotated around the first sensitive axis 310 in rocking bar 350, diameter because of the through passage 319 to link slot 316 opening 318 of this connecting through hole 317 is less than the diameter of connecting through hole 317, pivot protrusion 354 cannot be deviate from from passage 319 thus drive whole first sensitive axis 310 to rotate around first direction.

Be enclosed within rocking bar 350 by the second sensitive axis 320, the handle 352 of this rocking bar 350 passes from the assembling through hole 326 the second connecting portion 324.When rocking bar 350 exists the component motion of the pivot joint rotation direction rotation around the central shaft place of connecting through hole 317, the edge of this rocking bar 350 and assembling through hole 326 is inconsistent and drive the second sensitive axis 320 to rotate around second direction.

Be appreciated that and also rocking bar 350 can be arranged on other elements, and make rocking bar 350 run through the first sensitive axis 310 and the second sensitive axis 320 to control the motion of the first sensitive axis 310 and the second sensitive axis 320.

Because rocking bar 350 can not drive the first sensitive axis 310 to rotate around the component motion of the central axis of connecting through hole 317, and because of rocking bar 350 when the first sensitive axis 310 is rotated can along assembling through hole 326 bearing of trend move, the second sensitive axis 320 also can not be driven to rotate.So the sensing of the component motion that this action sensing structure 30 pairs of rocking bars 350 rotate around different directions is separate and be independent of each other.

This first sensitive axis 310 is arranged on the first side of shell 300 and the first inwall of correspondence rotationally along first direction.This second sensitive axis 320 is arranged on the second side of shell 300 and the second inwall of correspondence rotationally along second direction.This rocking bar 350 is stretched into by the operation through hole 303 of shell 300.

This first circuit board 330 is fixed on end face 301 away from the first side one lateral edges.This first circuit board 330 is formed with the inside of side towards shell 300 of sensing circuit pattern 331.The first sensing element 312 that this first detecting part 314 terminal surface is arranged slides electrical contact to sense the rotational angle of the first sensitive axis 310 under rocking bar 350 drives with the sensing circuit pattern 331 on first circuit board 330.This second circuit board 340 is fixed on the edge of end face 301 away from the second side, side.The first sensing element 312 that this first detecting part 314 terminal surface is arranged slides electrical contact to sense the rotational angle of the second sensitive axis 320 under rocking bar 350 drives with the sensing circuit pattern 331 on first circuit board 330.

In the present embodiment, this second connecting portion 324 is in dome-shaped.This second sensitive axis 320 is enclosed within rocking bar 350 by assembling through hole 326.This first spherical connecting portion 315 is housed in the space below dome-shaped second connecting portion 324 to make whole action sensing structure 30 compacter.

This action sensing structure 30 and use the sports apparatus 1 of this action sensing structure 30 sensitive axis end arrange sensing contact and corresponding circuits plate to realize motion sensing.Because circuit board is more frivolous, so whole action sensing structure 30 is simply compact, and circuit board is also easier to be fixed, and assembles up than being easier to.

Be appreciated that and also can only include the first sensitive axis 310, first sensing element 312 and first circuit board 330, for controlling the motion in some directions.Certainly, three and with the control structure in last direction can also be comprised, for controlling the motion of multiple directions.

Although the utility model discloses as above with embodiment; so itself and be not used to limit the utility model; have in any art and usually know the knowledgeable; not departing from the spirit and scope of the utility model; when doing a little change and retouching, thus the protection domain of the utility model when depending on after the attached claim person of defining be as the criterion.

Claims (20)

1. an action sensing structure, for sensing the operational motion of user, comprise operating parts, sensing element and circuit board, described circuit board is provided with sensing circuit pattern, described sensing element is electrically connected with described sensing circuit pattern, and described operating parts drives described sensing element and described circuit board relative motion to export with the electrical quantities changing described circuit board.

2. action sensing structure as claimed in claim 1, it is characterized in that: described sensing circuit pattern comprises resistance section and conductive part, described sensing element comprises at least two conductive contacts, described conductive contact respectively with this resistance section and conductive part sliding contact with by resistance section and conductive part mutual conduction.

3. action sensing structure as claimed in claim 2, is characterized in that: this resistance section and conductive part are two sections of semi arches around the same center of circle, and the radius of this resistance section is greater than the radius of conductive part.

4. action sensing structure as claimed in claim 3, it is characterized in that: this resistance section is carbon brush, this conductive part is conductive film.

5. action sensing structure as claimed in claim 2, is characterized in that: described sensing element comprises at least two conductive contacts connecting body and stretch from described connection body epirelief, and described conductive contact and described circuit board elastic are conflicted.

6. action sensing structure as claimed in claim 1, is characterized in that: described sensing element and described circuit board can relatively rotate under the driving of described operating parts.

7. action sensing structure as claimed in claim 1, it is characterized in that: described circuit board also comprises the leading-out terminal be connected with sensing circuit pattern, described sensing element rotates the electrical quantities to change sensing circuit pattern relative to described sensing circuit pattern, this leading-out terminal by because of described in relatively rotate cause electrical quantities change derive.

8. the action sensing structure as described in any one of claim 1-7, it is characterized in that: at least one sensitive axis that described operating parts comprises rocking bar and is connected with described rocking bar, described sensing element and described circuit board are arranged at least one end of described sensitive axis, described rocking bar drives described sensitive axis to rotate, thus orders about described sensing element and described circuit board relatively rotates.

9. action sensing structure as claimed in claim 8, it is characterized in that: described operating parts comprises rocking bar, the first sensitive axis rotated around first direction and the second sensitive axis rotated around second direction, the first sensing element that at least one end that described action sensing structure also comprises corresponding first sensitive axis is arranged and first circuit board, second sensing element of at least one end setting of corresponding second sensitive axis and second circuit board, this first sensitive axis is connected with rocking bar and rotates around first direction under the drive of rocking bar, this second sensitive axis is connected with rocking bar and rotates around second direction under the drive of rocking bar, this first sensitive axis orders about described first sensing element and first circuit board relatively rotates, second sensitive axis orders about the second sensing element and second circuit board relatively rotates, the component motion that this first circuit board is rotated around first direction by the first sensitive axis sensing rocking bar, the component motion that this second circuit board is rotated around second direction by the second sensitive axis sensing rocking bar.

10. action sensing structure as claimed in claim 9, it is characterized in that: described first sensing element is arranged at least one end of described first sensitive axis and is electrically connected with described first circuit board, described second sensing element is arranged at least one end of described second sensitive axis and is electrically connected with described second circuit board.

11. action sensing structures as described in claim 9 or 10, is characterized in that: described first sensitive axis and the second sensitive axis arranged in a crossed manner.

12. action sensing structures as claimed in claim 11, is characterized in that: this first sensitive axis comprises the first rotating shaft, the first detecting part and the first connecting portion, and described rocking bar drives described first sensitive axis to rotate by the first connecting portion.

13. action sensing structures as claimed in claim 12, it is characterized in that: the direction that this first rotating shaft extends is defined as the length direction of this first rotating shaft, this the first detecting part is arranged on one end of this first rotating shaft, described first sensing element is arranged on this first detecting part, this first connecting portion be arranged on the first rotating shaft along its length direction opposite end between.

14. action sensing structures as described in claim 12 or 13, is characterized in that: described rocking bar is connected with described first connecting portion.

15. action sensing structures as claimed in claim 14, is characterized in that: described rocking bar is flexibly connected with described first connecting portion.

16. action sensing structures as claimed in claim 15, it is characterized in that: in this first connecting portion, offer the uncovered link slot extended along the first shaft length direction, a pivot joint rotation direction is defined perpendicular to the first shaft length direction, this link slot is along offering the connecting through hole coaxially arranged for a pair in two side relative in this pivot joint rotation direction respectively, this rocking bar comprises rotation section and handle, a pair pivot protrusion is extended in the opposite direction along same axis in this rotation section, this pivot protrusion is rotationally connected in connecting through hole respectively, this handle extends along the direction perpendicular to pivot protrusion place axis.

17. action sensing structures as claimed in claim 13, is characterized in that: this second sensitive axis comprises the second rotating shaft, the second connecting portion and the second detecting part, and described rocking bar drives described second sensitive axis to rotate by described second detecting part.

18. action sensing structures as claimed in claim 17, it is characterized in that: the direction that this second connecting portion extends is defined as the length direction of this second connecting portion, this second rotating shaft is stretched out by the opposite end of the second connecting portion along its length direction respectively, this second connecting portion offers an assembling through hole along its length direction, and the handle of this rocking bar passes from the assembling through hole the second connecting portion the second sensitive axis to be enclosed within rocking bar.

19. action sensing structures as claimed in claim 18, it is characterized in that: this second connecting portion is dome-shaped, this first connecting portion is housed in the space below dome-shaped second connecting portion.

20. 1 kinds of sports apparatus, it comprises power source, controller and the action sensing structure according to any one of claim 1 to 7,9,10,12,13,15 to 19, this power source provides the power needed for motion for sports apparatus, the actual motion that it is sports apparatus that this controller and this power source are connected with the power conversion provided by this power source, this action sensing structure is connected with action throw-over gear with the operational motion sensing user to control the direction of motion that controller carrys out maneuvering motion device.