CN105653103A - Peripheral equipment positioning method on capacitance touch screen, device, touch control equipment and peripheral equipment - Google Patents

Abstract

The invention provides a peripheral equipment positioning method on a capacitance touch screen, a device, touch control equipment and peripheral equipment; the positioning method comprises the following steps: determining whether the peripheral equipment has approaching or capacitance touch screen touch motion or not; obtaining electric signal information generated by the motion if the motion is determined; determining an approaching or touching area on the capacitance touch screen by the peripheral equipment. The technical scheme can solve the problems caused by inaccurate positions between the equipment, like the communication effect is poor, power consumption is high, and service life is short; when the peripheral equipment approaches or makes contact motions with the capacitance touch screen, the method can determine the approaching or touching area on the capacitance touch screen by the peripheral equipment according to the electric signal information generated by the motions, thus positioning the peripheral equipment on the capacitance touch screen; the method and device can guide a user to place the peripheral equipment on the most communication suitable place according to the positioning of the peripheral equipment, thus improving communication effect between electronic equipment, reducing signal emission efficiency and work power consumption, and prolonging service life of the equipment.

Description

Localization method, device, touch control device and the peripheral hardware being located on capacitive touch screen outward

Technical field

The present invention relates to the communications field, particularly relate to the outer localization method, device, touch control device and the peripheral hardware that are located on capacitive touch screen.

Background technology

In recent years, along with developing rapidly of mobile terminal, the use of touch-screen was more and more extensive, wherein, capacitance touch screen is the excellent properties such as multi-point touch is sensitive, transmittance height, long service life because having, and market degree of recognition improves constantly, and has occupied the first place of the whole touch-screen market share.

In actual applications, touch control device needs wirelessly to carry out communication with other peripheral hardware usually, such as, by bluetooth, WiFi, NFC (NearFieldCommunication, near-field communication), sound wave etc. In existing mode, there is the product of a kind of sound wave U shield, this product adopts powered battery, carries out communication by sound wave, and interiors of products includes sound sending spparatus, such as loudspeaker or piezoelectric ceramics piezo etc., also there is sound receiver, such as microphone, when with intelligent electronic device communication, need to allow the sound sending spparatus of this product as far as possible near the sound receiver of intelligent electronic device, allow the sound receiver of peripheral hardware as far as possible near the sound sending spparatus of intelligent electronic device. But, for major part touch control device and peripheral hardware, owing to, in communication process, because both relative positions are placed inaccurate, thus communication efficiency can be affected, causing power consumption to increase, reduce work-ing life.

Summary of the invention

The present invention provides the outer localization method, device, touch control device and the peripheral hardware that are located on capacitive touch screen, solves the problem that between equipment, communication efficiency that is that cause is poor, power consumption is higher and work-ing life is shorter because placement position is inaccurate.

For solving the problems of the technologies described above, the present invention by the following technical solutions:

The outer localization method being located on capacitive touch screen, comprises following treating processes:

Judge whether to occur peripheral hardware to come close to or in contact with the action of capacitive touch screen;

When being judged as described action, obtain the electrical signal information because described action produces;

According to described electrical signal information, it is determined that the described outer capacitive touch that is located at shields the region come close to or in contact with.

In an embodiment of the present invention, described acquisition specifically comprises any one mode following because of the electrical signal information that described action produces:

Obtain because described action causes the capacitance variation amount information sets that in described capacitive touch screen, at least one region capacitance variations occurs and produce;

Or, obtain the induced current variable quantity information sets produced because described action causes at least one region cutting magnetic line in described capacitive touch screen;

Or, obtain the optoelectronic induction signal produced because described action causes opto-electronic conversion.

In an embodiment of the present invention,

When obtaining the capacitance variation amount information sets produced because described action causes at least one region generation capacitance variations in described capacitive touch screen, or, when obtaining the induced current variable quantity information sets produced because described action causes at least one region cutting magnetic line in described capacitive touch screen, described according to described electrical signal information, it is determined that the described outer region come close to or in contact with that is located on capacitive touch screen specifically comprises:

According to described capacitance variation amount information sets or induced current variable quantity information sets, obtain the region of capacitance variation amount or the relatively large correspondence of induced current variable quantity in described information sets, described region is defined as the described outer capacitive touch that is located at and shields the region come close to or in contact with.

In an embodiment of the present invention,

When obtaining the optoelectronic induction signal produced because described action causes opto-electronic conversion, described according to described electrical signal information, it is determined that the described outer region come close to or in contact with that is located on capacitive touch screen specifically comprises:

Judge whether described optoelectronic induction signal exceedes setting threshold value;

When described optoelectronic induction signal exceedes setting threshold value, obtain the current position of peripheral hardware, described current position is defined as the described outer capacitive touch that is located at and shields the region come close to or in contact with.

A kind of locating device, comprising:

Action judges module, occurs peripheral hardware to come close to or in contact with the action of capacitive touch screen for judging whether;

Data obtaining module, for when described action judges that module is judged as described action, obtaining the electrical signal information because described action produces;

Area determination module, for the electrical signal information obtained according to described data obtaining module, it is determined that the described outer capacitive touch that is located at shields the region come close to or in contact with.

In an embodiment of the present invention,

Described data obtaining module is specifically for obtaining because described action causes the capacitance variation amount information sets that in described capacitive touch screen, at least one region capacitance variations occurs and produce;

Or, the induced current variable quantity information sets that described data obtaining module produces because described action causes at least one region cutting magnetic line in described capacitive touch screen specifically for obtaining;

Or, the optoelectronic induction signal that described data obtaining module produces because described action causes opto-electronic conversion specifically for obtaining.

In an embodiment of the present invention,

When described data obtaining module causes, because of described action, the capacitance variation amount information sets that in described capacitive touch screen, at least one region capacitance variations occurs and produce specifically for obtaining, or, when the induced current variable quantity information sets that described data obtaining module produces because described action causes at least one region cutting magnetic line in described capacitive touch screen specifically for obtaining, also comprise:

Region acquisition module, for according to described capacitance variation amount information sets or induced current variable quantity information sets, obtaining the region of capacitance variation amount or the relatively large correspondence of induced current variable quantity in described information sets;

Described area determination module is described specifically for being defined as in the region that described region acquisition module obtains is located on capacitive touch screen the region come close to or in contact with outward.

In an embodiment of the present invention,

When the optoelectronic induction signal that described data obtaining module produces because described action causes opto-electronic conversion specifically for obtaining, also comprise:

Signal judges module, for judging whether the optoelectronic induction signal that described data obtaining module obtains exceedes setting threshold value;

Region acquisition module, for when described signal judges that module is judged as that optoelectronic induction signal exceedes setting threshold value, obtaining the current position of peripheral hardware;

Described area determination module is described specifically for the current position that described region acquisition module obtains being defined as is located on capacitive touch screen the region come close to or in contact with outward.

A kind of touch control device, described touch control device is provided with capacitive touch screen, also comprises the locating device of above-mentioned arbitrary.

A kind of peripheral hardware, comprises the locating device of above-mentioned arbitrary.

The useful effect of the present invention:

The present invention provides the outer localization method, device, touch control device and the peripheral hardware that are located on capacitive touch screen, when the action occurring peripheral hardware to come close to or in contact with capacitive touch screen, according to the electrical signal information produced because of this action, determine that the outer capacitive touch that is located at shields the region come close to or in contact with, complete the location being externally located on capacitive touch screen, according to the location to peripheral hardware, instruct user that peripheral hardware is positioned over the position of the most applicable communication, by adjustment position, communication efficiency between raising equipment, the signal transmission power of reduction equipment and work power consumption, the work-ing life of extension device.

Accompanying drawing explanation

The schema of the outer localization method being located on capacitive touch screen that Fig. 1 provides for the embodiment of the present invention one;

The structural representation of the locating device that Fig. 2 provides for the embodiment of the present invention two;

The structural representation of the touch control device that Fig. 3 provides for the embodiment of the present invention three;

The structural representation of the peripheral hardware that Fig. 4 provides for the embodiment of the present invention four.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is part embodiment in the present invention, instead of whole embodiments. Based on the embodiment in the present invention, those of ordinary skill in the art, not making other embodiments all obtained under creative work prerequisite, belong to the scope of protection of the invention.

By reference to the accompanying drawings the present invention is described in further detail below by embodiment.

Embodiment one:

Such as the schema of the outer localization method being located on capacitive touch screen that Fig. 1 provides for the embodiment of the present invention one, as shown in Figure 1, this outer localization method being located on capacitive touch screen comprises:

S101: judge whether to occur peripheral hardware to come close to or in contact with the action of capacitive touch screen;

Specifically, when peripheral hardware needs to communicate with touch control device, this peripheral hardware is come close to or in contact with the capacitive touch screen of touch control device, therefore, in order to make the relative position between touch control device and peripheral hardware place accurately, peripheral hardware need to be positioned, then judge whether to occur peripheral hardware to come close to or in contact with the action of capacitive touch screen, this judgement process can be completed by touch control device, it is also possible to completes by peripheral hardware. This touch control device is provided with capacitive touch screen, and it is including, but not limited to the electronics such as smart mobile phone, panel computer, super or personal digital assistant, and this peripheral hardware is including, but not limited to U shield, smart card or other electronics that can communicate with touch control device.

S102: when being judged as generation action, obtains the electrical signal information because action produces;

Specifically, when being judged as occurring peripheral hardware to come close to or in contact with the action that capacitive touch is shielded, due to this action, touch control device or peripheral hardware is made to create electrical signal information, thus obtain the electrical signal information because this action produces, for this electrical signal information, its obtain manner is including, but not limited to under type:

The capacitance variation amount information sets that mode one, acquisition produce because action causes at least one region generation capacitance variations in capacitive touch screen;

If this outer metal shell being set to have conductivity, electro-conductive material shell or on insulating material housing the electronics of additional layer conductive layer, when the capacitive touch that peripheral hardware comes close to or in contact with touch control device is shielded, owing to being set to have the metal shell of conductivity outward, the electronics of electro-conductive material shell or conductive layer, cause the close point with peripheral hardware on capacitive touch screen, point of contact or close region, contact region creates obvious capacitance variations, touch control device can obtain because this action causes the capacitance variation amount information sets that in capacitive touch screen, at least one region capacitance variations occurs and produce, namely this capacitance variation amount information sets includes the capacitance variation amount in capacitive touch screen at least one region upper,

The induced current variable quantity information sets that mode two, acquisition produce because action causes at least one region cutting magnetic line in capacitive touch screen;

If during the electronics that this is outer is set to non-conducting material shell or insulating material housing, such as plastics, glass, PVC (Polyvinylchloridepolymer, polyvinyl chloride) etc. material, capacitance variations capacitive touch shielded due to non-conducting material shell or insulating material housing changes very little, with regard to current technical qualification, capacitive touch screen is difficult to be positioned by peripheral hardware by capacitance variation amount, therefore, can at these inner FX of peripheral hardware or several regions installation magnetic devices with non-conducting material shell or insulating material housing, certainly, also the metal shell with conductivity it is not precluded within, electro-conductive material shell or on insulating material housing the inner FX of the peripheral hardware of additional layer conductive layer or several regions magnetic devices are installed, in actual design, the quantity of this magnetic device can need according to location and design, if this magnetic device can be a continuous print plane region, this magnetic device can produce magnetic field, static magnetic field and dynamic magnetic field mainly it is divided into due to magnetic field, therefore, when this magnetic device is the magnetic device that can produce static magnetic field, such as with the magnet of magnetic, magneticsubstance maybe can produce the ruhmkorff coil etc. of static magnetic field, when peripheral hardware shields near the capacitive touch of touch control device, owing to peripheral hardware and capacitive touch exist relative movement between shielding, the metal scan line of capacitive touch screen inside is by cutting magnetic line, namely can trigger capacitive touch screen by the above-mentioned magnetic device producing static magnetic field and electromagnetic induction occurs, and then produce induced current in the metal scan line that capacitive touch screen is inner, when this magnetic device is the magnetic device that can produce dynamic magnetic field, such as can produce the ruhmkorff coil of dynamic magnetic field, when the capacitive touch that peripheral hardware comes close to or in contact with touch control device is shielded, owing to peripheral hardware inside is provided with the ruhmkorff coil that can produce dynamic magnetic field, it can produce dynamic magnetic field, and there is relative movement between not needing peripheral hardware and capacitive touch to shield in this dynamic magnetic field, therefore in the metal scan line that capacitive touch screen is inner, produce induced current equally, touch control device can obtain the induced current variable quantity information sets produced because action causes at least one region cutting magnetic line in capacitive touch screen, namely this induced current variable quantity includes the induced current variable quantity in capacitive touch screen at least one region upper,

The optoelectronic induction signal that mode three, acquisition produce because action causes opto-electronic conversion.

When being set to have the electronics of non-conducting material shell or insulating material housing outward, such as plastics, glass, the materials such as PVC, capacitance variations capacitive touch shielded due to non-conducting material shell or insulating material housing changes very little, with regard to current technical qualification, capacitive touch screen is difficult to be positioned by peripheral hardware by capacitance variation amount, therefore, can have at this and non-conducting material shell or insulating material housing install optoelectronic induction device, certainly, also the metal shell with conductivity it is not precluded within, electro-conductive material shell or on insulating material housing additional layer conductive layer peripheral hardware housing on optoelectronic induction device, this optoelectronic induction device is including, but not limited to photorectifier, the optoelectronic induction material of photovaristor or other types, preferably, in order to convenient location, this optoelectronic induction device can be installed on the bottom of peripheral hardware, in actual design, the quantity of optoelectronic induction device can need according to location and design, when peripheral hardware shields near capacitive touch, can according to the installation position of the optoelectronic induction device designed by peripheral hardware, touch control device by some specific region on its capacitive touch of software control screen or some specific point is shinny and all the other regions or all the other points without brightness, this brightness is used for and the optoelectronic induction device of peripheral hardware inside carries out position identification, when contacting with each other between the bottom and capacitive touch screen of peripheral hardware, when only having the specific light-emitting zone on the alignment capacitive touch screen of the optoelectronic induction device bottom peripheral hardware or specific luminous point, just can be converted to effective optoelectronic induction signal, this optoelectronic induction signal can be voltage signal, it can also be electric current signal, peripheral hardware obtains the optoelectronic induction signal produced because this action causes opto-electronic conversion.

S103: according to electrical signal information, it is determined that be located on capacitive touch screen the region come close to or in contact with outward.

Specifically, when getting the electrical signal information because of action generation, can according to this electrical signal information, it is determined that be located on capacitive touch screen the region come close to or in contact with outward, thus completing rapidly the location to peripheral hardware so that touch control device can communicate with peripheral hardware better.

In the present embodiment, it is determined that be located on capacitive touch screen the mode in the region come close to or in contact with outward, including, but not limited to under type:

When mode one, the capacitance variation amount information sets produced when at least one region generation capacitance variations during acquisition is because action initiation capacitive touch screen, according to the capacitance variation amount in capacitive touch screen at least one region upper, obtain the region of the relatively large correspondence of capacitance variation amount in this capacitance variation amount information sets, i.e. certain zone on capacitive touch screen, if its capacitance variation amount is relatively large, then the region of this relatively large correspondence of capacitance variation amount is defined as the outer capacitive touch that is located at and shields the region come close to or in contact with;

When mode two, the induced current variable quantity information sets produced when at least one region cutting magnetic line during acquisition is because action initiation capacitive touch screen, according to the induced current variable quantity in capacitive touch screen at least one region upper, obtain the region of the relatively large correspondence of induced current variable quantity in this induced current variable quantity information sets, i.e. certain zone on capacitive touch screen, if its induced current variable quantity is relatively large, then the region of this relatively large correspondence of induced current variable quantity is defined as the outer capacitive touch that is located at and shields the region come close to or in contact with;

Mode three, when obtain because action cause opto-electronic conversion and produce optoelectronic induction signal time, judge whether this optoelectronic induction signal exceedes setting threshold value, only when the specific light-emitting zone on the optoelectronic induction device alignment capacitive touch screen of peripheral hardware or specific luminous point, optoelectronic induction signal can exceed setting threshold value, the current position of peripheral hardware can be obtained, the current position of peripheral hardware is defined as the outer capacitive touch that is located at and shields the region come close to or in contact with.

When the action occurring peripheral hardware to come close to or in contact with capacitive touch screen, according to the electrical signal information produced because of this action, determine that the outer capacitive touch that is located at shields the region come close to or in contact with, complete the location being externally located on capacitive touch screen, according to the location to peripheral hardware, instruct user that peripheral hardware is positioned over the position of the most applicable communication, by adjustment position, communication efficiency between raising equipment, reduces signal transmission power and the work power consumption of equipment, the work-ing life of extension device.

Embodiment two:

Such as the structural representation of the locating device that Fig. 2 provides for the embodiment of the present invention two, as shown in Figure 2, this locating device 1 comprises:

Action judges module 11, occurs peripheral hardware to come close to or in contact with the action of capacitive touch screen for judging whether;

Data obtaining module 12, for when action judges that module 11 is judged as generation action, obtaining the electrical signal information because action produces;

Area determination module 13, for the electrical signal information obtained according to data obtaining module 12, it is determined that be located on capacitive touch screen the region come close to or in contact with outward.

Preferably, data obtaining module 12 is specifically for obtaining because action causes the capacitance variation amount information sets that in capacitive touch screen, at least one region capacitance variations occurs and produce, or, the induced current variable quantity information sets that data obtaining module 12 produces because action causes at least one region cutting magnetic line in capacitive touch screen specifically for obtaining, or, the optoelectronic induction signal that data obtaining module 12 produces because action causes opto-electronic conversion specifically for obtaining.

Preferably, also comprise region acquisition module 14, when data obtaining module 12 causes, because of action, the capacitance variation amount information sets that in capacitive touch screen, at least one region capacitance variations occurs and produce specifically for obtaining, or, when the induced current variable quantity information sets that data obtaining module 12 produces because action causes at least one region cutting magnetic line in capacitive touch screen specifically for obtaining, region acquisition module 14 is for according to capacitance variation amount information sets or induced current variable quantity information sets, the region of capacitance variation amount or the relatively large correspondence of induced current variable quantity in obtaining information group, area determination module 13 is defined as the outer capacitive touch that is located at specifically for the region obtained according to region acquisition module 14 and shields the region come close to or in contact with.

Preferably, also comprise region acquisition module 14, signal judges module 15, when the optoelectronic induction signal that data obtaining module 12 produces because action causes opto-electronic conversion specifically for obtaining, signal judges whether the optoelectronic induction signal that module 15 obtains for judging data obtaining module 12 exceedes setting threshold value, region acquisition module 14 is for when signal judges that module 15 is judged as that optoelectronic induction signal exceedes setting threshold value, obtain the current position of peripheral hardware, area determination module 13 is outer specifically for the current position that region acquisition module 14 obtains being defined as is located on capacitive touch screen the region come close to or in contact with.

Embodiment three:

Such as the structural representation of the touch control device that Fig. 3 provides for the embodiment of the present invention three, as shown in Figure 3, this touch control device is provided with capacitive touch screen 2, also comprises locating device 1. This touch control device judges whether to occur peripheral hardware to come close to or in contact with the action of capacitive touch screen, when being judged as generation action, obtains the electrical signal information because action produces, according to this electrical signal information, it is determined that be located on capacitive touch screen the region come close to or in contact with outward.

Embodiment four:

Such as the structural representation of the peripheral hardware that Fig. 4 provides for the embodiment of the present invention four, as shown in Figure 4, this peripheral hardware comprises locating device 1. This peripheral hardware judges whether to occur peripheral hardware to come close to or in contact with the action of capacitive touch screen, when being judged as generation action, obtains the electrical signal information because action produces, according to this electrical signal information, it is determined that be located on capacitive touch screen the region come close to or in contact with outward.

Above content is in conjunction with concrete preferred implementation further description made for the present invention, can not assert that specific embodiment of the invention is confined to these explanations. For general technical staff of the technical field of the invention, without departing from the inventive concept of the premise, it is also possible to make some simple deduction or replace, all should be considered as belonging to protection scope of the present invention.

Claims (10)

1. the localization method being located on capacitive touch screen outward, it is characterised in that, comprise following treating processes:

Judge whether to occur peripheral hardware to come close to or in contact with the action of capacitive touch screen;

When being judged as described action, obtain the electrical signal information because described action produces;

According to described electrical signal information, it is determined that the described outer capacitive touch that is located at shields the region come close to or in contact with.

2. the outer localization method being located on capacitive touch screen according to claim 1, it is characterised in that, described acquisition specifically comprises any one mode following because of the electrical signal information that described action produces:

Obtain because described action causes the capacitance variation amount information sets that in described capacitive touch screen, at least one region capacitance variations occurs and produce;

Or, obtain the induced current variable quantity information sets produced because described action causes at least one region cutting magnetic line in described capacitive touch screen;

Or, obtain the optoelectronic induction signal produced because described action causes opto-electronic conversion.

3. the outer localization method being located on capacitive touch screen according to claim 2, it is characterised in that,

When obtaining the capacitance variation amount information sets produced because described action causes at least one region generation capacitance variations in described capacitive touch screen, or, when obtaining the induced current variable quantity information sets produced because described action causes at least one region cutting magnetic line in described capacitive touch screen, described according to described electrical signal information, it is determined that the described outer region come close to or in contact with that is located on capacitive touch screen specifically comprises:

According to described capacitance variation amount information sets or induced current variable quantity information sets, obtain the region of capacitance variation amount or the relatively large correspondence of induced current variable quantity in described information sets, described region is defined as the described outer capacitive touch that is located at and shields the region come close to or in contact with.

4. the outer localization method being located on capacitive touch screen according to claim 2, it is characterised in that,

When obtaining the optoelectronic induction signal produced because described action causes opto-electronic conversion, described according to described electrical signal information, it is determined that the described outer region come close to or in contact with that is located on capacitive touch screen specifically comprises:

Judge whether described optoelectronic induction signal exceedes setting threshold value;

When described optoelectronic induction signal exceedes setting threshold value, obtain the current position of peripheral hardware, described current position is defined as the described outer capacitive touch that is located at and shields the region come close to or in contact with.

5. a locating device, it is characterised in that, comprising:

Action judges module, occurs peripheral hardware to come close to or in contact with the action of capacitive touch screen for judging whether;

Data obtaining module, for when described action judges that module is judged as described action, obtaining the electrical signal information because described action produces;

Area determination module, for the electrical signal information obtained according to described data obtaining module, it is determined that the described outer capacitive touch that is located at shields the region come close to or in contact with.

6. locating device according to claim 5, it is characterised in that,

Described data obtaining module is specifically for obtaining because described action causes the capacitance variation amount information sets that in described capacitive touch screen, at least one region capacitance variations occurs and produce;

Or, the induced current variable quantity information sets that described data obtaining module produces because described action causes at least one region cutting magnetic line in described capacitive touch screen specifically for obtaining;

Or, the optoelectronic induction signal that described data obtaining module produces because described action causes opto-electronic conversion specifically for obtaining.

7. locating device according to claim 6, it is characterised in that,

When described data obtaining module causes, because of described action, the capacitance variation amount information sets that in described capacitive touch screen, at least one region capacitance variations occurs and produce specifically for obtaining, or, when the induced current variable quantity information sets that described data obtaining module produces because described action causes at least one region cutting magnetic line in described capacitive touch screen specifically for obtaining, also comprise:

Region acquisition module, for according to described capacitance variation amount information sets or induced current variable quantity information sets, obtaining the region of capacitance variation amount or the relatively large correspondence of induced current variable quantity in described information sets;

Described area determination module is described specifically for being defined as in the region that described region acquisition module obtains is located on capacitive touch screen the region come close to or in contact with outward.

8. locating device according to claim 6, it is characterised in that,

When the optoelectronic induction signal that described data obtaining module produces because described action causes opto-electronic conversion specifically for obtaining, also comprise:

Signal judges module, for judging whether the optoelectronic induction signal that described data obtaining module obtains exceedes setting threshold value;

Region acquisition module, for when described signal judges that module is judged as that optoelectronic induction signal exceedes setting threshold value, obtaining the current position of peripheral hardware;

Described area determination module is described specifically for the current position that described region acquisition module obtains being defined as is located on capacitive touch screen the region come close to or in contact with outward.

9. a touch control device, it is characterised in that, described touch control device is provided with capacitive touch screen, also comprises the locating device as described in item as arbitrary in claim 5-8.

10. a peripheral hardware, it is characterised in that, comprise the locating device as described in item as arbitrary in claim 5-8.