CN105573526A - Stylus - Google Patents

Abstract

The invention discloses a stylus used for controlling a capacitive type touch panel. The stylus comprises a body, a sleeve, a contact part, an induction apparatus and a buffering element, wherein the contact part is arranged in the body, and part of the contact part extends out of the body and used for being in contact with the capacitive type touch panel for transmitting a touch signal to the capacitive type touch panel; the contact part passes through the sleeve and can move relative to the sleeve; the induction apparatus is arranged in the body and used for generating the touch signal according to the movement of the contact part; and the buffering element is arranged in the sleeve and used for separating the contact part from the induction apparatus, and transmitting the touch signal to the contact part. When the stylus is stressed by external force to enable the contact part to move, the contact part and the induction apparatus are separated by the buffering element to prevent the contact part from colliding the induction apparatus; and in addition, the external force is received by the buffering element and can be used for protecting the induction apparatus, so that the damage probability of the stylus is lowered.

Description

Pointer

Technical field

The present invention about a kind of pointer, especially about the pointer that can manipulate capacitive touch control plate.

Background technology

Common traditional computer peripheral input device comprises the devices such as mouse, keyboard and trace ball.Along with the progress in epoch, be proposed Trackpad on the market, it is available for users to directly utilize finger or pointer to operate on Trackpad, and is manipulated the electronic installations such as computer system.

Trackpad common on the market can be divided into resistor type touch control plate, sound wave Trackpad, infrared-type touch plate and capacitive touch control plate according to kind, sequentially simply introduces various Trackpad.Resistor type touch control plate is by pressing the change in voltage and the position of identification press points that produce by laminate (being generally the finger of user).Sound wave Trackpad is covered with sound wave in its surface, picks out the position of its press points by being pressed thing blocking sound wave distribution.The principle of infrared-type touch plate and sound wave Trackpad is similar, and infrared-type touch plate is covered with infrared ray in its surface, and by the position of identification press points by laminate blocking infrared ray transmission.As for capacitive touch control plate, when it utilizes the finger contact capacitive touch control plate of user, there is capacitance variation in the contact point of capacitive touch control plate and judge the position of contact point.In above-mentioned various Trackpad, because the touch-control accuracy of capacitive touch control plate is higher, and its cost is lower, therefore comparatively multi-user understands choice for use capacitive touch control plate.

Along with the development of capacitive touch control plate, its manufacturer researches and develops and releases the special capacitive touch pen of capacitive touch control plate.Refer to as Fig. 1, it is the section of structure of existing capacitive touch pen.Existing capacitive touch pen 1 comprises conductive pen point 11, metal body 12, pressure inductor 13, volute spring 14, circuit board 15, drives button 16, two trigger switch 17 and battery 18.Conductive pen point 11 is arranged at one end of metal body 12 and is revealed in outside metal body 12, its function is that the first end 111 of conductive pen point 11 is contacted with capacitive touch control plate (not being shown in figure), and the second end 112 of conductive pen point 11 then can contact with pressure inductor 13.The second end 112 that volute spring 14 is sheathed on conductive pen point 11 contacts with pressure inductor 13, the function of pressure inductor 13 is pushed against by the second end 112 of conductive pen point 11 to produce touching signals, circuit board 15 is arranged in metal body 12, and pressure inductor 13 and two trigger switches 17 are connected to circuit board 15.Outside driving button 16 to be arranged at metal body 12 is revealed in, and drive button 16 to contact with two trigger switches 17, and battery 18 is electrically connected at circuit board 15, its function is for providing electrical power to circuit board 15.

When user presses driving button 16, drive button 16 to push against two trigger switches 17, and two trigger switches 17 produce enabling signal to circuit board 15, to start existing capacitive touch pen 1.After existing capacitive touch pen 1 is activated, user grips existing capacitive touch pen 1 and the first end 111 of conductive pen point 11 is contacted with capacitive touch control plate, now, conductive pen point 11 moves relative to the direction of metal body 12 toward pressure inductor 13, and compression helical spring 14 is with accumulation elastic force.On the other hand, the second end 112 of conductive pen point 11 pushes against pressure inductor 13, makes pressure inductor 13 produce touching signals, and transmission touching signals is to conductive pen point 11, to export touching signals to capacitive touch control plate.The capacitance of the contact point of capacitive touch control plate and conductive pen point 11 can be changed by this, and then make capacitive touch control plate judge the position of its contact point, to carry out corresponding instruction.

When user removes existing capacitive touch pen 1, when the first end 111 of conductive pen point 11 is no longer contacted with capacitive touch control plate, discharged its elastic force by the volute spring 14 compressed and push against conductive pen point 11, conductive pen point 11 is moved, to return to conductive pen point 11 not by the position before pushing against toward away from the direction of pressure inductor 13 relative to metal body 12.

But, existing capacitive touch pen 1 has following two shortcomings, first, the damage of the easy build-up of pressure inductor 13 of structure of existing capacitive touch pen 1, such as: user neglects and makes existing capacitive touch pen 1 fall to desktop or ground, make the first end 111 of conductive pen point 11 directly occur strongly to clash into desktop or ground, and the second end 112 of conductive pen point 11 is with stronger power shock pressure inductor 13, build-up of pressure inductor 13 damages.

Second, pressure inductor 13 can judge the pushing force that user applies, and produce different touching signals according to the pushing force of varying strength, make existing capacitive touch pen 1 that different touching signals can be utilized to produce different effects, such as: when user applies general pushing force, existing capacitive touch pen 1 can draw the lines of normal thickness, and when user applies larger pushing force, existing capacitive touch pen 1 can draw thicker lines.But the different pushing force received by pressure inductor 13 and produced different touching signals are not linear.

Illustrate, when user applies the pushing force of 100 gram forces, existing capacitive touch pen 1 can draw the lines of normal thickness, but when user applies the pushing force of 200 gram forces, existing capacitive touch pen 1 is still the lines drawing normal thickness, until when user applies the pushing force of 400 gram forces, existing capacitive touch pen 1 just can draw thicker lines.According to above-mentioned known, when user applies the little pushing force of strength difference, the touching signals exported due to pressure inductor 13 is non-linear, therefore existing capacitive touch pen 1 still can draw identical lines.For user, apply different touch pressures, but draw identical lines and can cause the operational puzzlement of user.

Therefore, a kind of reduction is needed to damage probability and do not cause user to operate the pointer of puzzlement.

Summary of the invention

The technical problem to be solved in the present invention is, for prior art above shortcomings, provides a kind of more not easily damaged and do not cause user to operate the pointer of puzzlement.

The technical solution adopted for the present invention to solve the technical problems is to provide a kind of pointer, and in order to manipulate a capacitive touch control plate, it comprises body, contact element, sleeve, induction installation and buffer element.This contact element is arranged in this body and part stretches out in this body, transmits a touching signals to this capacitive touch control plate in order to contact with this capacitive touch control plate.This sleeve is arranged in this body, and this contact element is movably fixed on this sleeve through this sleeve.This induction installation is arranged in this body, produces this touching signals in order to the movement according to this contact element.This buffer element to be arranged in this sleeve and to contact with this contact element and this induction installation respectively, in order to be separated this contact element and this induction installation and to transmit this touching signals to this contact element.

Preferably, this sleeve comprises sleeve body, the first cell body, the second cell body and sleeve perforate, and this sleeve body has a spaced walls; This first cell body is arranged at one first side of this spaced walls; This second cell body is arranged at one second side of this spaced walls; This sleeve perforate to be arranged in this spaced walls and to be communicated with this first cell body and this second cell body, and this contact element is movably fixed on this sleeve through this sleeve perforate.

Preferably, this contact element comprises contact nib and pen point casing, and one first section of this contact nib to be accommodated in this first cell body and not to contact with this spaced walls, and one second section of this contact nib is accommodated in this second cell body through this sleeve perforate; This pen point casing is arranged on this second section of this contact nib, in order to contact with this buffer element; Wherein when this contact element is moved because of an external force, this first section of this contact nib is stopped by this spaced walls.

Preferably, this pointer also comprises correcting element, and this correcting element to be arranged in this sleeve and around this buffer element, and contacts with this induction installation, gives this induction installation in order to provide a correction elastic force.

Preferably, this correcting element and this buffer element are all volute spring.

Preferably, this induction installation comprises circuit board, sensing element, control module and wrap, and this circuit board is arranged in this body and part is inserted in this sleeve; This sensing element is arranged on this circuit board, in order to produce a pressure detection signal; This control module to be arranged on this circuit board and to be connected to this sensing element, in order to should pressure detection signal and judge whether to produce this touching signals; One first end of this wrap contacts with this correcting element, and one second end of this wrap contacts with this sensing element, and this wrap, and should this correction elastic force of providing of correcting element and continue this sensing element of pushing and pressing in order to this buffer element coated; Wherein when this contact element contacts with this capacitive touch control plate, this contact element moves relative to this sleeve and pushes against this buffer element, make this buffer element support this wrap and trigger this sensing element, and this sensing element produce this corresponding pressure detection signal to this control module.

Preferably, when this control module receives this pressure detection signal, and when judging that this pressure detection signal is more than or equal to a pressure preset value, this touching signals is produced; And when this control module receives this pressure detection signal, and when judging that this pressure detection signal is less than this pressure preset value, do not produce this touching signals.

Preferably, this wrap has wrap perforate, and this buffer element has transmission connecting-leg, and this transmission connecting-leg is connected to this circuit board through this wrap perforate.

Preferably, this touching signals that this control module produces is transferred to this capacitive touch control plate by this circuit board, this transmission connecting-leg and this contact element.

Pointer of the present invention is separated contact element and induction installation by arranging buffer element between contact element with induction installation; when pointer is subject to excessive external force and makes contact element move toward the direction of induction installation relative to sleeve; buffer element is separated contact element and induction installation and avoids contact element to clash into induction installation; and this external force is received by buffer element and can protect induction installation; simultaneously can buffer release elastic force, the position before contact element being returned back to be moved.The damage probability of pointer can be reduced by this.Secondly, buffer element has transmission connecting-leg, and it is connected to the circuit board of induction installation, and when control module produces touching signals, this touching signals can be transferred to capacitive touch control plate by circuit board, transmission connecting-leg and contact element.That is, buffer element, except separating contact element and induction installation, has more effect of transmission touching signals.In addition, more include the correcting element continuing pushing and pressing induction installation in pointer of the present invention, to make sensing element be adjusted to linearizing element, and be convenient to the power size of user's control operation.

Accompanying drawing explanation

Fig. 1 is the section of structure of existing capacitive touch pen.

Fig. 2 is the section of structure of pointer of the present invention in a preferred embodiment.

Fig. 3 is the partial structurtes exploded view of pointer of the present invention in a preferred embodiment.

Fig. 4 is the local structural graph of pointer of the present invention in a preferred embodiment.

Fig. 5 is the partial structurtes sectional view of pointer of the present invention in a preferred embodiment.

Fig. 6 be the contact element of pointer of the present invention in a preferred embodiment by the partial structurtes sectional view pushed against.

Embodiment

In view of the problem of prior art, the invention provides a kind of pointer solving prior art problem.First the structure of pointer of the present invention is described.Be the section of structure of pointer of the present invention in a preferred embodiment please refer to Fig. 2 and Fig. 3, Fig. 2, and Fig. 3 is the partial structurtes exploded view of pointer of the present invention in a preferred embodiment.The function of pointer 2 of the present invention is manipulation one capacitive touch control plate (not being shown in figure), and pointer 2 comprises body 21, contact element 22, sleeve 23, induction installation 24, buffer element 25, correcting element 26, electrical connecting element 27 and battery 28.Contact element 22 is arranged in body 21 and part stretches out in body 21, and its function makes induction installation 24 be triggered for contact with capacitive touch control plate, and transmits touching signals that induction installation 24 produces to capacitive touch control plate.Sleeve 23 is arranged in body 21, and contact element 22 is movably fixed on sleeve 23 through sleeve 23.Induction installation 24 is arranged in body 21, and its function is be triggered according to moving of contact element 22, and produces touching signals.In this preferred embodiment, pointer 2 is active capacitive touch pen, and contact element 22 is with made by conductive material.

Buffer element 25 to be arranged in sleeve 23 and to contact with contact element 22 and induction installation 24 respectively, its function has two, the first, and separable contact element 22 avoids contact element 22 directly to contact with induction installation 24 with induction installation 24, the second, transmission touching signals is to contact element 22.Wherein, buffer element 25 has a transmission connecting-leg 251.Correcting element 26 to be arranged in sleeve 23 and around buffer element 25, and can contact with induction installation 24, and its function gives induction installation 24 for providing a correction elastic force, and contributes to the running of induction installation 24, and its relevant detailed content will in illustrating after a while.Electrical connecting element 27 to be arranged in body 21 and to be connected with induction installation 24, and battery 28 is installed in body 21 and contact with electrical connecting element 27, sets up battery 28 and the electric connection of induction installation 24 by this and is provided electrical power to induction installation.In this preferred embodiment, buffer element 25 and correcting element 26 are all volute spring.

The detailed construction of each element of following explanation.Refer to Fig. 2 ~ Fig. 5, Fig. 4 is the local structural graph of pointer of the present invention in a preferred embodiment, and Fig. 5 is the partial structurtes sectional view of pointer of the present invention in a preferred embodiment.Sleeve 23 comprises sleeve body 231, first cell body 232, second cell body 233 and sleeve perforate 234, sleeve body 231 has spaced walls 2311, and the first side of spaced walls 2311 is defined as the first cell body 232, and the second side of spaced walls 2311 is defined as the second cell body 233.Sleeve perforate 234 to be arranged in spaced walls 2311 and to be communicated with the first cell body 232 and the second cell body 233, and contact element 22 is movably fixed on sleeve 23 through sleeve perforate 234.Contact element 22 comprises contact nib 221 and pen point casing 222, and contact nib 221 is made up of the first section 2211 and the second section 2212, second section 2212 is combined with the first section 2211 with inserting mode, and the diameter of the second section 2212 is less than the diameter of the first section 2211.First section 2211 is accommodated in the first cell body 232, and in pointer 2 is not operated when, the first section 2211 does not contact with spaced walls 2311.Through sleeve perforate 234, part is accommodated in the second cell body 233 second section 2212, and pen point casing 222 is arranged on the second section 2212, and it can contact with buffer element 25.In this preferred embodiment, the second section 2212 is combined with the first section 2211 with inserting mode, but non-as limit, can adopt the first section and the integrated structure of the second section in another preferred embodiment.

In Fig. 3 ~ Fig. 5, induction installation 24 comprises circuit board 241, sensing element 242, control module 243 and wrap 244, and circuit board 241 is arranged in body 21 and part is inserted in the second cell body 233 of sleeve 23.Sensing element 242 is arranged on circuit board 241, and its function is for being triggered and producing a pressure detection signal.Control module 243 to be arranged on circuit board 241 and to be connected to sensing element 242, and its function is carry out the judgement of pressure detection signal when receiving pressure detection signal, to determine whether produce touching signals.The first end 2441 of wrap 244 contacts with correcting element 26, and the second end 2442 of wrap 244 contacts with sensing element 242, its function has two, first function is coated buffer element 25, the second function correction elastic force that then can provide in response to correcting element 26 and continues pushing and pressing sensing element 242.Wherein, wrap 244 has wrap perforate 2443, is arranged on the sidewall of wrap 244, makes the transmission connecting-leg 251 of buffer element 25 be connected to circuit board 241 through wrap perforate 2443, as shown in Figure 4.In this preferred embodiment, sensing element 242 is pressure inductor (Force-SensitiveResistor, FSR), and control module 243 is microprocessor.

Specifically be, pointer 2 of the present invention is designed to the structure that correcting element 26 continues pushing and pressing sensing element 242, its reason is, although sensing element 242 can produce different pressure detection signals according to the pushing force of varying strength, but the different pushing force received by sensing element 242 is not linear from produced different pressure detection signal, as described in the prior art, apply different touch pressures, but produce identical operating result and can cause the operational puzzlement of user.Find after research, after the pushing force putting on sensing element 242 is greater than a certain intensity level, the pushing force that applying intensity is greater than this intensity level can make sensing element 242 produce corresponding pressure detection signal, that is, the pushing force that applying intensity is greater than this intensity level can be directly proportional to pressure detection signal, therefore design revise element 26 is continuously applied the pushing force of above-mentioned a certain intensity level to sensing element 242, and be able to sensing element 242 to be converted to linearizing element, effect of different operating results can be produced during to reach and to apply different touch pressures, produce more accurate touch-control to control, avoid the formation of the operational puzzlement of user.

Following explanation user uses the operation situation of pointer of the present invention, please continue to refer to Fig. 2 ~ Fig. 6, Fig. 6 be the contact element of pointer of the present invention in a preferred embodiment by the partial structurtes sectional view pushed against.User presses the driving button (not being shown in figure) of pointer 2 to start pointer 2, and drive the structure of button and operation situation same as the prior art, therefore to repeat no more.After pointer 2 is activated, user grips pointer 2 and the first section 2211 of contact nib 221 is contacted with capacitive touch control plate, the direction of contact nib 221 relative to body 21 toward sensing element 242 is moved, and push against buffer element 25 thereupon the second section 2212 of movement and pen point casing 222 and compress buffer element 25, make buffer element 25 accumulation snubber elastomeric power.Wherein, contact nib 221 is toward in the process of the direction movement of sensing element 242, its first section 2211 moves to the position that contacts with spaced walls 2311 and is stopped by spaced walls 2311, with the displacement of Restricted Contact nib 221, second section 2212 only can be contacted with buffer element 25 at most, and cannot contact with induction installation 24.

Simultaneously, wrap 244 is pushed against by compression buffer element 25, the wrap 244 continuing to be corrected element 26 pushing and pressing is made to push against sensing element 242 further, sensing element 242 is made to produce the pressure detection signal corresponding to this pushing force, and by circuit board 241 transmission pressure detection signal to control module 243.Control module 243 judges whether this pressure detection signal is more than or equal to a pressure preset value (being defaulted in control module 243), when judging that this pressure detection signal is more than or equal to pressure preset value, control module 243 produces corresponding touching signals.Otherwise when control module 243 judges that this pressure detection signal is less than pressure preset value, control module 243 does not produce touching signals.Finally, the touching signals that control module 243 produces is output to the transmission connecting-leg 251 of buffer element 25 by circuit board 241, and transfer to the contact element 22 contacted with buffer element 25, make touching signals can pass through contact element 22 and transfer to capacitive touch control plate.Therefore, the position that capacitive touch control plate can occur by capacitance variation and judge the position of its contact point, to carry out corresponding instruction.

Pointer is removed when user's end of operation, and when contact nib 22 is no longer contacted with capacitive touch control plate, its snubber elastomeric power is discharged and conflicting contact nib 22 by the buffer element 25 compressed, contact nib 22 is moved toward the direction away from induction installation 24 relative to body 21, to return to contact nib 22 not by the position before pushing against, as shown in Figure 5.

Specifically the control module of pointer of the present invention also can adopt the setting different from above-mentioned preferred embodiment, in a better way, control module is preset with N number of pressure preset value, and can produce N+1 kind touching signals.Illustrate as follows: control module is preset with the first pressure preset value and the second pressure preset value, and the second pressure preset value is less than the first pressure preset value.When control module judges that the pushing force that sensing element receives is greater than the first pressure preset value, control module produces the first touching signals, and the track making pointer streak capacitive touch control plate can produce thick lines.When control module judges that pushing force that sensing element receives is between the first pressure preset value and the second pressure preset value, control module produces the second touching signals, and the track making pointer streak capacitive touch control plate can produce the lines of medium-coarse.And when control module judges that the pushing force that sensing element receives is less than the second pressure preset value, control module produces the 3rd touching signals, the track making pointer streak capacitive touch control plate can produce thin lines.

According to foregoing; pointer of the present invention is separated contact element and induction installation by arranging buffer element between contact element with induction installation; when pointer is subject to excessive external force and makes contact element move toward the direction of induction installation relative to sleeve; buffer element is separated contact element and induction installation and avoids contact element to clash into induction installation; and this external force is received by buffer element and can protect induction installation; simultaneously can buffer release elastic force, the position before contact element being returned back to be moved.The damage probability of pointer can be reduced by this.Secondly, buffer element has transmission connecting-leg, and it is connected to the circuit board of induction installation, and when control module produces touching signals, this touching signals can be transferred to capacitive touch control plate by circuit board, transmission connecting-leg and contact element.That is, buffer element, except separating contact element and induction installation, has more effect of transmission touching signals.In addition, more include the correcting element continuing pushing and pressing induction installation in pointer of the present invention, to make sensing element be adjusted to linearizing element, and be convenient to the power size of user's control operation.

The foregoing is only preferred embodiment of the present invention, and be not used to limit right of the present invention, under therefore all other does not depart from disclosed spirit, the equivalence that completes changes or modifies, and all should be contained in scope of patent protection of the present invention.

Claims (9)

1. a pointer, in order to manipulate a capacitive touch control plate, is characterized in that, comprising:

Body;

Contact element, is arranged in this body and part stretches out in this body, transmits a touching signals to this capacitive touch control plate in order to contact with this capacitive touch control plate;

Sleeve, is arranged in this body, and this contact element is movably fixed on this sleeve through this sleeve;

Induction installation, is arranged in this body, produces this touching signals in order to the movement according to this contact element; And

Buffer element, to be arranged in this sleeve and to contact with this contact element and this induction installation respectively, in order to be separated this contact element and this induction installation and to transmit this touching signals to this contact element.

2. pointer as claimed in claim 1, it is characterized in that, this sleeve comprises:

Sleeve body, has a spaced walls;

First cell body, is arranged at one first side of this spaced walls;

Second cell body, is arranged at one second side of this spaced walls; And

Sleeve perforate, to be arranged in this spaced walls and to be communicated with this first cell body and this second cell body, and this contact element is movably fixed on this sleeve through this sleeve perforate.

3. pointer as claimed in claim 2, it is characterized in that, this contact element comprises:

Contact nib, one first section of this contact nib to be accommodated in this first cell body and not to contact with this spaced walls, and one second section of this contact nib is accommodated in this second cell body through this sleeve perforate; And

Pen point casing, is arranged on this second section of this contact nib, in order to contact with this buffer element;

Wherein when this contact element is moved because of an external force, this first section of this contact nib is stopped by this spaced walls.

4. pointer as claimed in claim 1, it is characterized in that, this pointer also comprises correcting element, and this correcting element to be arranged in this sleeve and around this buffer element, and contacts with this induction installation, gives this induction installation in order to provide a correction elastic force.

5. pointer as claimed in claim 4, it is characterized in that, this correcting element and this buffer element are all volute spring.

6. pointer as claimed in claim 4, it is characterized in that, this induction installation comprises:

Circuit board, is arranged in this body and part is inserted in this sleeve;

Sensing element, is arranged on this circuit board, in order to produce a pressure detection signal;

Control module, to be arranged on this circuit board and to be connected to this sensing element, in order to should pressure detection signal and judge whether to produce this touching signals; And

Wrap, one first end of this wrap contacts with this correcting element, one second end of this wrap contacts with this sensing element, and this wrap, and should this correction elastic force of providing of correcting element and continue this sensing element of pushing and pressing in order to this buffer element coated; Wherein when this contact element contacts with this capacitive touch control plate, this contact element moves relative to this sleeve and pushes against this buffer element, make this buffer element support this wrap and trigger this sensing element, and this sensing element produce this corresponding pressure detection signal to this control module.

7. pointer as claimed in claim 6, is characterized in that, when this control module receives this pressure detection signal, and when judging that this pressure detection signal is more than or equal to a pressure preset value, produce this touching signals; And when this control module receives this pressure detection signal, and when judging that this pressure detection signal is less than this pressure preset value, do not produce this touching signals.

8. pointer as claimed in claim 6, it is characterized in that, this wrap has wrap perforate, and this buffer element has transmission connecting-leg, and this transmission connecting-leg is connected to this circuit board through this wrap perforate.

9. pointer as claimed in claim 8, it is characterized in that, this touching signals that this control module produces is transferred to this capacitive touch control plate by this circuit board, this transmission connecting-leg and this contact element.