CN203882273U - Attaching-type finger pointing control element - Google Patents

Abstract

The utility model relates to an attaching-type finger pointing control element which is used for controlling a pointing cursor of a computer host. According to the pointing control element, the pointing cursor is controlled through the thumb of a single hand and any other finger of the same hand or through the thumb of a hand and the palm of the hand. The pointing control element comprises an active sensing part and at least one passive sensing part, wherein the active sensing part is attached to the thumb of one hand, the single passive sensing part or the multiple passive sensing parts are attached to the palm or other fingers, the active sensing part makes contact with the surfaces of the passive sensing parts and moves relative to the passive sensing parts so that telecommunication change signals generated when the active sensing part makes contact with the passive sensing parts and moves relative to the passive sensing parts can be detected, and thus the pointing cursor of the computer host can be controlled. Thus, wrist carpal tunnel syndromes can be effectively avoided, actions of the hand for shuttling between a keyboard and a mouse are saved, operation can be performed more directly and easily, and thus the computer using efficiency is improved.

Description

A kind of formula Fingers that is sticked is to control piece

Technical field

The utility model, refers in particular to and a kind ofly utilizes finger and the mutual movement between finger that the displacement of computer control pointer and vectorial sensing control device are provided to control piece about a kind of formula Fingers that is sticked.

Background technology

The indicator device that is applied at present computing machine is popularized the most as mouse, its operation principles mainly utilizes track sensor to detect self displacement signal (displacement and vector), then machine host is controlled its shown picture pointer and produced corresponding displacement and vector as calculated.And traditional mouse track sensor mainly can be divided into two kinds of mechanical type and optical profile types, mechanical type utilizes ball (rolling ball) and desktop touch scrolling to carry out detecting position shifting signal, and optical mouse carrys out inductive displacement signal with optical sensor according to light reflection principle.

Above-mentioned mouse is designed primarily to sensing purposes, therefore action need be controlled its actual displacement and vector with user's wrist mostly, so that user all has wrist and the shoulder neck malaise symptoms such as ache, find after deliberation user's hand from keyboard outwardly when mouse moves, can be unconsciously by hand abduction, the crooked outwards upset of shoulder, except causing neck, shoulder, and outside the injury of arm, during user's wrist mouse beacon repeatedly towards a left side, while moving right, the stretching, extension that wrist ulna can produce deviation and present wide-angle, the stretching, extension of its wide-angle is as Fig. 1, dotted line 90 in Fig. 1 a, shown in 90 ', cause the canalis carpi of palm because pressure is excessive, to cause common carpal tunnel syndrome (or complication of wrist), be commonly called as mouse hand.

The general the most basic treatment of rehabilitation section's doctor advised is exactly not allow wrist produce improper posture mostly, for every day for operation computing machine working clan for living, be the impossible task of part.

Based on the demand, industry develops the various mouse moulding that meet ergonomics in recent years, wish to solve the generation of above-mentioned carpal tunnel syndrome at all, but all cannot improve this problem, trace it to its cause and be: utilize the mode of operation of wrist mouse beacon all without any change, that is, no matter where mouse moulding is as changed, user need to repeatedly carry out mouse beacon by wrist, even if palm is because of its posture of mouse moulding slight modification, but still need repeatedly by its wrist, to control during actual rolling mouse.

How effectively the wrist of mouse beacon to be changed to by exquisiteness and to point to produce displacement signal, for industry, make great efforts the direction of exploitation; Early stage industry is mostly by aforementioned mechanical type or optical mouse exterior design is the fingerstall moulding that can dress for finger, makes on user's finger-stall fingerstall move and to produce displacement signal No. 443542nd, Taiwan patent (as: " finger control mouse ") at desktop.

Then, industry develops and a kind ofly directly mouse roller and mouse function is divided on a plurality of fingerstall, as: as shown in No. M279931st, No. I259389th, Taiwan patent and Taiwan patent, these are quoted the two maximum difference of case as proof and are: the producing method of displacement signal is different;

Aforementioned Taiwan patent No. I259389 " finger-worn type control device " it mainly utilize the roller of being located on forefinger to produce displacement signal, and left mouse button, right mouse button are divided on middle finger, during use, only need to utilize thumb to stir the roller of position on forefinger and can produce displacement signal, while wanting to press left mouse button or right mouse button, only need to use thumb directly to press the mouse left-right key being positioned on middle finger.

Aforementioned Taiwan patent No. M279931 " glove-type directive controller " it mainly utilize a sender unit that can transmit continuously (as infrared transmitter) to produce displacement signal, this indicating needle controller is arranged with sender unit and two control pieces on a finger-stall, during use, this sender unit transmits continuously to computing machine on desktop, and then formation displacement signal, while wanting to press left mouse button or right mouse button, only need to use thumb directly to press the control piece on finger-stall.

So, rise along with Touch Screen, dealer develops a kind of " referring to Computer Control Unit " No. I259389th, Taiwan patent (as: " finger-worn type control device "), it mainly has the fingerstall portion of Touch Screen in one installing of finger upper sleeve through, in this fingerstall portion, to have entity function key graphic with virtual functions key for Touch Screen, and it is graphic or directly on this Touch Screen surface, with touch control manner, control the sensing pointer movement on main frame screen that user can thumb clicks the shown virtual functions of this Touch Screen.

Above-mentioned three patents mainly move at desktop, direct jog dial or produce displacement signal on mini Touch Screen, therefore, outside the shift length deficiency that causes at every turn providing, in typewriting process, also easily produce misoperation (as upper roller or Touch Screen are pointed in false touch) and the difficulty that causes user to edit.

For this reason, how effectively using finger is the problem of studying intensively for the utility model as pointing to control and can not producing the situations such as misoperation.

Utility model content

Fundamental purpose of the present utility model is providing a kind of formula Fingers that is sticked to control piece, for effectively controlling the sensing pointer of main frame, and can not produce misoperation, this sensing control piece utilizes singlehanded thumb and other arbitrary fingers, or thumb and palm thereof control this sensing index, can solve the carpal tunnel syndrome of wrist at all, also save hand and often come and go and between keyboard and mouse, move and reduce bungle, make operation more directly simple, thereby promote, use computer efficiency.

This sensing control piece comprises: an active induction pieces, and it is attached on thumb on the other hand; At least one passive induction pieces, its single or multiple being attached on palm or other fingers, wherein this active induction pieces and this passive induction pieces Surface Contact relatively move, to detect the telecommunications variable signal that relatively moves and produced when this active induction pieces contacts this passive induction pieces.

According to aforementioned principal character, wherein this sensing control piece further comprises: a circuit unit, it becomes electric signal to be connected with these induction pieces (active or passive induction pieces), and the telecommunications variable signal that relatively moves produced between these induction pieces that detect (as current potential or electrically conductive signal) is passed to this main frame, thereby the sensing pointer on synchro control main frame.

According to aforesaid accidental quality, wherein between these induction pieces and this circuit unit, in wired or wireless mode, do a signal and be connected.

According to aforesaid accidental quality, wherein between this circuit unit and main frame, in wired or wireless mode, do a signal and be connected.

According to aforesaid accidental quality, wherein this circuit unit is located on this passive induction pieces or this active induction pieces, or is directly fixed in wrist.

According to aforesaid accidental quality, wherein this passive induction pieces is provided with displacement induction zone, left button induction zone and right button induction zone.

According to aforesaid accidental quality, wherein these induction pieces are finger cot type, and these induction pieces are sheathed on to finger.

According to aforesaid accidental quality, wherein these induction pieces are flexible lamellar body formula, and these induction pieces are attached on finger surface.

According to aforesaid accidental quality, wherein this passive induction pieces is with respect to be sticked finger, be provided with first knuckle district, second knuckle district and the third knuckle district corresponding with this finger first knuckle, second knuckle and third knuckle (starting at finger tip), and the surface of this first knuckle district side is located in this left button induction zone, and the surface of this third knuckle district side is located in this right button induction zone.

According to aforesaid accidental quality, wherein other positions of non-right button induction zone and non-left button induction zone are located in this displacement induction zone.

According to aforesaid accidental quality, wherein this active induction pieces and this passive induction pieces connect as one.

According to aforesaid accidental quality, wherein the plurality of passive induction pieces comprises: a first passive induction pieces, with displacement induction zone has the second passive induction pieces of left button induction zone, right button induction zone, and this sensing control piece also comprises a circuit unit being connected with this first passive induction pieces and this second passive induction pieces.

According to aforesaid accidental quality, wherein this second passive induction pieces is with respect to be sticked finger, be provided with and this finger first knuckle, second knuckle, first knuckle district, second knuckle district, third knuckle district that third knuckle (starting at finger tip) is corresponding, and the surface of the first knuckle district side of this second passive induction pieces is located in this left button induction zone, and the surface of second knuckle district side of this second passive induction pieces or the surface of the third knuckle district side of the second passive induction pieces are located in this right button induction zone.

According to aforementioned principal character, wherein this active induction pieces and passive induction pieces are made by the fabric that is mixed with conductive fiber.

According to aforementioned principal character, wherein this active induction pieces and passive induction pieces are the flexible lamellar body that is laid with conducting wire.

According to aforesaid principal character, the assembly that wherein this active induction pieces or this passive induction pieces are corresponding start, that is the actuator function of this active induction pieces or this passive induction pieces can be changed mutually.

Accompanying drawing explanation

Fig. 1 is for being used palm and the wrist posture figure of conventional mouse;

Fig. 1 a is for being used palm and the wrist top view of conventional mouse;

Fig. 2 is that the utility model the first embodiment is sticked formula Fingers to the schematic perspective view of control piece, shows that initiatively induction pieces and passive induction pieces are located at respectively forefinger and thumb;

Fig. 2 a is that many general fibers of the utility model the first embodiment and the metallic conductor mutual twisting of twisting thread is wound around the schematic diagram that forms conductive region;

Fig. 3 is that the utility model the first embodiment is sticked formula Fingers to the use state schematic perspective view of control piece, shows that wearing the initiatively thumb of induction pieces produces click action in the contact of the left button induction zone of passive induction pieces;

Fig. 4 is that the utility model the first embodiment formula Fingers that is sticked is used state schematic perspective view to another of control piece, shows that wearing the initiatively thumb of induction pieces produces click action in the contact of the right button induction zone of passive induction pieces;

Fig. 5 be the utility model the first embodiment be sticked formula Fingers to control piece one use state schematic perspective view again, show that wear the initiatively thumb of induction pieces contact movement on passive induction pieces;

Fig. 6 is that the utility model the first embodiment is sticked formula Fingers to the schematic perspective view of another angle of control piece, shows that wear the initiatively thumb of induction pieces contact movement on passive induction pieces;

Fig. 7 is that the utility model the first embodiment is sticked formula Fingers to the schematic perspective view of control piece, shows that wearing initiatively induction pieces and passive induction pieces connects as one;

Fig. 8 is that the utility model the second embodiment is sticked formula Fingers to the schematic perspective view of control piece, shows that initiatively induction pieces, the first passive induction pieces and the second passive induction pieces are worn respectively in forefinger, middle finger and thumb.

Description of reference numerals: active induction pieces-10; Passive induction pieces-20; Left button induction zone-21; Right button induction zone-22; Displacement induction zone-23; Circuit unit-30; The first passive induction pieces-40; Displacement induction zone-41; The second passive induction pieces-50; Left button induction zone-51; Right button induction zone-52; First knuckle district-61; Second knuckle district-62; Third knuckle district-63; First knuckle district-71; Second knuckle district-72; Third knuckle district-73; General fiber-81; Metallic conductor-82; Conductive region-A.

Embodiment

According to above-mentioned purpose, hereby lift preferred embodiment and coordinate diagram to be illustrated technological means and the effect thereof that the utility model adopts.

Refer to Fig. 2, Fig. 2 is that the utility model the first embodiment is sticked formula Fingers to the schematic perspective view of control piece, shows that initiatively induction pieces and passive induction pieces are attached at respectively forefinger and thumb.

A kind of first embodiment of formula Fingers to control piece that be sticked that the utility model provides, it take a fingerstall pattern as example (but also can be tool flexible strip build formula when the practical application), be used for controlling the sensing pointer (not shown) of online main frame, this control device only needs to utilize singlehanded thumb and with other arbitrary fingers of hand, or thumb and can control the sensing pointer of main frame with the palm of hand, effectively replace conventional mouse, and then solve to use outside the carpal tunnel syndrome that mouse produces, also hand be can save simultaneously and keyboard typing and mouse beacon often come and gone, effectively promote work efficiency, this sensing control piece comprises: an active induction pieces 10, it is set on thumb on the other hand, at least one passive induction pieces 20, they are single or multiple is set on the palm or other fingers of this hand, an and circuit unit 30, itself and this passive induction pieces 20 (or active induction pieces 10) online (as shown in Figure 2) (assembly that above-mentioned this active induction pieces or this passive induction pieces are corresponding start, that is the actuator function of this active induction pieces or this passive induction pieces can be changed mutually).

When above-mentioned this active induction pieces 10 is gone forward side by side line displacement with the Surface Contact of this passive induction pieces 20, make this passive induction pieces 20 transfer to circuit unit 30 according to itself and the telecommunications variable signal such as current potential that initiatively induction pieces 10 produces or electrically conductive signal, this circuit unit 30 is also compiled as displacement signal (the telecommunications variable signal that this circuit unit 30 detects passive induction pieces 20 compiles) by these telecommunications variable signals, then by this circuit unit 30, this displacement signal is passed to this main frame synchro control and point to pointer (not shown), or this active induction pieces 10 is while going forward side by side line displacement with the Surface Contact of this passive induction pieces 20, these passive induction pieces 20 surfaces have the telecommunications variable signal output of a simulation (as potential change signal, or resistance variations signal etc.), by this circuit unit 30, the telecommunications variable signal of this simulation is converted to the digital signal that computing machine can receive again, via the touch-control driver providing in advance in main frame, this digital signal is compiled as to a displacement signal again, again this displacement signal is passed to a display chip, finally by this display chip output screen signal, at computer screen, demonstrate sensing pointer, this sensing index and with this initiatively induction pieces 10 relatively move with contacting of this passive induction pieces 20 and movement.

Between this active induction pieces 10 (or passive induction pieces 20) and circuit unit 30, in wired or wireless mode, do a signal and be connected, in the utility model, do not limited to.The signal of aforementioned wireless mode connects, (IEEE is writing a Chinese character in simplified form of Institute Electrical and Electronics Engineers to include bluetooth (Bluetooth), bee colony network (ZigBee), WiFi, 3G, 3.5G, 4G or standard IEEE 802.11 wireless transport modules, Chinese is institute of electrical and electronic engineers) etc., in the utility model, do not limited to.

In above-mentioned formation, please refer to Fig. 2 a, this active induction pieces 10, passive induction pieces 20 are provided with conductive region A, and this conductive region A is wound around and is formed by twist thread mutual twisting of many general fibers 81 and metallic conductor 82, or is attached on conductive region A by many conductor wires.

Please again consult Fig. 2 and Fig. 3, Fig. 3 is that the utility model the first embodiment is sticked formula Fingers to the use state schematic perspective view of control piece, shows that wearing the initiatively thumb of induction pieces produces click action in the contact of the left button induction zone of passive induction pieces.

As shown in these figure, active induction pieces 10 described in the utility model and this passive induction pieces 20, take conductive fiber in the present embodiment as example (as shown in Figure 2 a), the contact area that this conductive fiber forms and interacts each other, use to reach and control the effect of pointing to index, wherein these passive induction pieces 20 surfaces are distinguished and are had at least three induction zones, are respectively the track sensor that left button induction zone 21, right button induction zone 22 and displacement induction zone 23 (as shown in Figure 2) replace respectively conventional mouse left button, right mouse button and mouse.

This passive induction pieces 20 is with respect to worn finger, be provided with the first knuckle district 61 corresponding with this finger first knuckle (starting at finger tip), the second knuckle district 62 corresponding with this finger second knuckle, the third knuckle district 63 corresponding with this finger third knuckle, this left button induction zone 21 is used for the initiatively contact point number of times of induction pieces 10 within the unit interval be compiled as that single is clicked or click signal repeatedly through circuit unit 30 of induction, because its frequency of utilization is higher, therefore, in the present embodiment, wear in the surface of the first knuckle district of this passive induction pieces 20 61 sides this left button induction zone 21.

Refer to Fig. 4, Fig. 4 is that the utility model the first embodiment formula Fingers that is sticked is used state schematic perspective view to another of control piece, shows that wearing the initiatively thumb of induction pieces produces click action in the contact of the right button induction zone of passive induction pieces.

As shown in the figure, right button of the present utility model induction zone 22 is used for the initiatively contact point number of times of induction pieces 10 within the unit interval be compiled as that single is clicked or click action repeatedly through circuit unit 30 of induction, because its frequency of utilization is lower, therefore the surface of third knuckle district 63 sides of this passive induction pieces 20 is located in this right button induction zone 22 in the present embodiment.

Refer to Fig. 5 and Fig. 6, Fig. 5 be the utility model the first embodiment be sticked formula Fingers to control piece one use state schematic perspective view again, show that wear the initiatively thumb of induction pieces contact movement on passive induction pieces.Fig. 6 is that the utility model the first embodiment is sticked formula Fingers to the schematic perspective view of another angle of control piece, shows that wear the initiatively thumb of induction pieces contact movement on passive induction pieces.

Induction displacement and vector that initiatively induction pieces 10 slides in its Surface Contact mouse are responsible in this displacement induction zone 23, because its required region is larger, in the present embodiment, the surface of second knuckle district 62 sides of this passive induction pieces 20 is located in this displacement induction zone 23, or other positions of non-right button induction zone 22 and non-left button induction zone 21 are located in this displacement induction zone 23.

Fig. 7 is that the utility model the first embodiment is sticked formula Fingers to the schematic perspective view of control piece, shows that wearing initiatively induction pieces and passive induction pieces connects as one.

Circuit unit 30 described in the utility model is not defined as its pattern, so long as be convenient to wear or use, this circuit unit 30 can be wristband type universal serial be worn on wrist or with this passive induction pieces (not shown) that is combined as a whole, the utility model is not limited to.

In addition, the utility model active induction pieces 10 and passive induction pieces 20 do not limit separately design, also active induction pieces 10 and passive induction pieces 20 can be connected as one, so that take in wearing, as for, the actual formation material of aforesaid active induction pieces 10 or passive induction pieces 20, in the utility model, do not limited to, this active induction pieces 10 and passive induction pieces 20 can be conductive fiber, or this passive induction pieces 20 is consisted of pliability touch pad, or this passive induction pieces 20 is consisted of flexible touch-control screen panel, or this active induction pieces 10 is consisted of flexible lamellar body with passive induction pieces 20, and many electric wires that are sticked on this lamellar body.

This pliability touch pad can be divided into flexible capacitive touch pad or pliability resistive touch plate according to its principle of induction, when 10 touchings one of active induction pieces are the passive induction pieces of pliability touch pad, these passive induction pieces 20 surfaces have the telecommunications variable signal output (as capacitance signal variable signal or resistance signal variation) of a simulation, by this circuit unit 30, the telecommunications variable signal of this simulation is converted to the digital signal that computing machine can receive again, via the touch-control driver in main frame, this digital signal is compiled as to a displacement signal again, again this displacement signal is passed to a display chip, finally by this display chip output screen signal, at computer screen, demonstrate sensing pointer, this sensing index and with this initiatively induction pieces 10 relatively move with contacting of this passive induction pieces 20 and movement.

This flexible touch-control screen panel can be divided into flexible capacitive touch-screen panel or pliability resistance touch screen panel according to its principle of induction, when 10 touchings one of active induction pieces are the passive induction pieces of flexible touch-control screen panel, these passive induction pieces 20 surfaces have the telecommunications variable signal output (as capacitance signal variable signal or resistance signal variation) of a simulation, by this circuit unit 30, the telecommunications variable signal of this simulation is converted to the digital signal that computing machine can receive again, via the touch-control driver in main frame, this digital signal is compiled as to a displacement signal again, again this displacement signal is passed to a display chip, finally by this display chip output screen signal, at computer screen, demonstrate sensing pointer, this sensing index and with this initiatively induction pieces 10 relatively move with contacting of this passive induction pieces 20 and movement.

Wherein, when this passive induction pieces 20 is a pliability resistance touch screen panel, the top layer of this passive induction pieces 20 is a polyester sheet, its inner side has conducting metal and films, these passive induction pieces 20 bottoms are liquid crystal display (LCD), the glass plate of coated with conductive material on this display, wherein between this glass plate and polyester sheet, have additional double-layer separate interlayer, separate layer along X-axis setting is used for responding to X axis amount, separate layer along Y-axis setting is used for responding to Y-axis amount, when touching passive induction pieces 20, active induction pieces 10 two separate layers can be forced together, can respond to X-axis and Y-axis coordinate.

Wherein, when this passive induction pieces 20 is a flexible capacitive screen panel, this flexible capacitive screen panel can be used by the soft display center of State of Arizona, US state university (Flexible Display Center, FDC) the Touch Screen active matrix displays of developing (touchscreen active matrix display), this screen is soft and the flexual condenser type screen panel of tool, and this is passive induction pieces 20 for using soft screen.Realize the example of formula Fingers to control piece that be sticked of the present utility model.

Please again consult Fig. 8, Fig. 8 is that the utility model the second embodiment is sticked formula Fingers to the schematic perspective view of control piece, shows that initiatively induction pieces, the first passive induction pieces and the second passive induction pieces are worn respectively in forefinger, middle finger and thumb.

Being illustrated in figure 8 the utility model the second embodiment provides a kind of formula Fingers that is sticked to control piece, be used for controlling the sensing pointer (not shown) of online main frame, the utility model does not limit to two fingers controls sensing index, also can be three fingers or four fingers, therefore the present embodiment and the first embodiment maximum difference are: the second embodiment is by (the left button induction zone 21, three induction zones described in the first embodiment, right button induction zone 22 and displacement induction zone 23) be divided on two passive induction pieces, be respectively the first passive induction pieces 40 and the second passive induction pieces 50, in more detail: this sensing control piece at least comprises: one is located at the active induction pieces 10 on thumb, one has the first passive induction pieces 40 of displacement induction zone 41, one has left button induction zone 51, the passive induction pieces 50 in right button induction zone 52 second, and one and this first passive induction pieces 40 and the online circuit unit 30 (as shown in Figure 8) of the second passive induction pieces 50, wherein this active induction pieces 10 carries out contact displacement on these first passive induction pieces 40 41 surfaces, displacement induction zone that provide, the current potential that makes this first passive induction pieces 40 produce according to itself and active induction pieces 10, electric capacity or electrically conductive signal transfer to circuit unit 30 and are compiled as displacement signal, by this circuit unit 30, transfer to this main frame synchro control again and point to pointer (not shown).

As shown in the figure, the left button induction zone 51 on the second passive induction pieces 50 of the present utility model and right button induction zone 52 are used for the initiatively contact point number of times of induction pieces 10 within the unit interval be compiled as that single is clicked or click action repeatedly through circuit unit 30 of induction.

This second passive induction pieces 50 is with respect to overlapped finger, be provided with the first knuckle district 71 corresponding with this finger first knuckle (starting at finger tip), the second knuckle district 72 corresponding with this finger second knuckle (starting at finger tip), the third knuckle district 73 corresponding with this finger third knuckle (starting at finger tip), this left button induction zone 51 is used for the initiatively contact point number of times of induction pieces 10 within the unit interval be compiled as that single is clicked or click signal repeatedly through circuit unit 30 of induction, because its frequency of utilization is higher, therefore, in the present embodiment, the surface of first knuckle district 71 sides of this second passive induction pieces 50 is located in this left button induction zone 51.And right button induction zone 52 is because its frequency of utilization is lower, in the present embodiment, the surface of second knuckle district 72 sides of this second passive induction pieces 50 or the surface of third knuckle district 73 sides of this second passive induction pieces 50 are located in this right button induction zone 52.

In sum, a kind of formula Fingers that is sticked provided by the utility model is to control piece, the sensing pointer of main frame can be effectively controlled and misoperation can not be produced, this sensing control piece utilizes singlehanded thumb and other arbitrary fingers, or thumb and palm thereof control this sensing index, can solve the carpal tunnel syndrome of wrist at all, also save hand and often come and go and between keyboard and mouse, move and reduce bungle, make operation more directly simple, thereby promote, use computer efficiency.

The utility model is described in more detail by above-mentioned preferred embodiment; but the present invention is not limited to above-mentioned given an example embodiment; within the scope of all technological thoughts disclosing at the utility model, these structures are made various changes and modified still belong to protection domain of the present utility model.

Claims (10)

1. the formula that is sticked Fingers is to a control piece, and it,, for effectively controlling the sensing pointer of a main frame, is characterized in that, this sensing control piece comprises:

One active induction pieces, it is attached on thumb on the other hand;

At least one passive induction pieces, it is attached on the palm or other fingers of this hand, wherein this active induction pieces and this passive induction pieces Surface Contact relatively move to produce telecommunications variable signal;

One circuit unit, its with passive induction pieces or initiatively induction pieces signal be connected, and telecommunications variable signal when this passive induction pieces is contacted and relatively moved with this active induction pieces passes to this main frame, thus the sensing pointer on synchro control main frame.

2. the formula Fingers that is sticked according to claim 1 is to control piece, and this passive induction pieces or this induction pieces initiatively wherein and is done a signal in wired or wireless mode between circuit unit and is connected.

3. the formula Fingers that is sticked according to claim 1 is to control piece, wherein between this circuit unit and main frame, in wired or wireless mode, does a signal and is connected.

4. the formula Fingers that is sticked according to claim 1 is to control piece, and wherein this circuit unit is located on a bracelet.

5. the formula Fingers that is sticked according to claim 1 is to control piece, wherein this passive induction pieces is provided with displacement induction zone, left button induction zone and right button induction zone, and this passive induction pieces is with respect to be sticked finger, first knuckle district corresponding to finger first knuckle that is provided with and starts at finger tip, the second knuckle district corresponding with the finger second knuckle of starting at finger tip, the third knuckle district corresponding with the finger third knuckle of starting at finger tip, and the surface of the first knuckle district side of this passive induction pieces is located in this left button induction zone, and the surface of the third knuckle district side of this passive induction pieces is located in this right button induction zone, the surface of the second knuckle district side of this passive induction pieces is located in this displacement induction zone.

6. the formula Fingers that is sticked according to claim 5 is to control piece, and wherein other positions of non-right button induction zone and non-left button induction zone are located in this displacement induction zone.

7. the formula Fingers that is sticked according to claim 1 is to control piece, and wherein this active induction pieces and this passive induction pieces connect as one.

8. the formula Fingers that is sticked according to claim 1 is to control piece, wherein the plurality of passive induction pieces comprises: a first passive induction pieces, with displacement induction zone has the second passive induction pieces of left button induction zone, right button induction zone, and this sensing control piece also comprises a circuit unit being connected with this first passive induction pieces and this second passive induction pieces or this active induction pieces.

9. the formula Fingers that is sticked according to claim 8 is to control piece, wherein this second passive induction pieces is with respect to be sticked finger, first knuckle district corresponding to finger first knuckle that is provided with and starts at finger tip, the second knuckle district corresponding with the finger second knuckle of starting at finger tip, the third knuckle district corresponding with the finger third knuckle of starting at finger tip, and the surface of the first knuckle district side of this second passive induction pieces is located in this left button induction zone, and the surface of second knuckle district side of this second passive induction pieces or the surface of the third knuckle district side of the second passive induction pieces are located in this right button induction zone.

10. the formula Fingers that is sticked according to claim 1 is to control piece, and wherein this active induction pieces and passive induction pieces are made by conductive fiber.