CN103186260B - A kind of information processing method and electronic equipment - Google Patents

Abstract

The embodiment of the present invention provides a kind of information processing method and electronic equipment, method is applied in an electronic equipment, described electronic equipment at least includes a display unit and a control unit, and method includes: arrange semiconductor thin film on described display unit, and described semiconductive thin film can produce heat；When detect meet predetermined condition time, described control unit send a control instruction, described control instruction includes the location parameter at least part of region of described display unit；Described semiconductive thin film responds described control instruction, changes the temperature in described at least part of region according to described location parameter.It is able to detect that the various changes occurred on the display unit, controls semiconductive thin film at least part of region, produce heat so that at least partly the temperature in region raises, and improves user and uses the experience of electronic equipment.

Description

A kind of information processing method and electronic equipment

Technical field

The present invention relates to electronic equipment touching technique, particularly relate to a kind of information processing method and electronic equipment.

Background technology

In the technology of existing electronic equipment, touch screen has that sturdy and durable, response speed is fast, saves space, It is prone to many advantages such as exchange.Utilizing this technology, user has only to touch lightly on touch screen with finger Icon or word can be achieved with the operation to electronic equipment main frame, so that the process of man-machine interaction is the most straight See, greatly facilitate user unfamiliar to electronic device.

In prior art, finger, by the display unit (touch screen) of electronic equipment, can change display unit Local temperature.

There are the following problems for prior art: the display unit of electronic equipment cannot collecting temperature data, not place The function of reason temperature data.

Summary of the invention

The technical problem to be solved in the present invention is to provide a kind of information processing method and electronic equipment, is used for solving In prior art, the display unit of electronic equipment cannot collecting temperature data, there is no the merit for the treatment of temperature data The defect of energy.

For solving above-mentioned technical problem, embodiments of the invention provide a kind of information processing method, are applied to one In electronic equipment, described electronic equipment at least includes a display unit and a control unit, and method includes: Arranging semiconductor thin film on described display unit, described semiconductive thin film can produce heat；When detecting When meeting predetermined condition, described control unit sending a control instruction, described control instruction includes described The location parameter at least part of region of display unit；Described semiconductive thin film responds described control instruction, root The temperature in described at least part of region is changed according to described location parameter.

In described method, described predetermined condition includes: when showing specific image in described at least part of region Time, the things represented by described specific image has thermometer intrinsic characteristics；And represented by described specific image Things or described thermometer intrinsic characteristics can be detected by described electronic equipment.

In described method, described predetermined condition includes: when the region outside described at least part of region shows When showing specific image, the things represented by described specific image has thermometer intrinsic characteristics；And described specific pattern As represented things or described thermometer intrinsic characteristics can be detected by described electronic equipment.

In described method, described predetermined condition includes: exist in described at least part of region when detecting During one touch operation, described touch operation and the control corresponding to temperature changing described at least part of region refer to Order can be mated.

In described method, described semiconductive thin film includes that inductive reactance, described inductive reactance are being loaded with Original operating state, corresponding one first resistance value it is in after one operating current；Described predetermined condition includes: institute The resistance value stating inductive reactance changes voluntarily according to the temperature detected, has one second resistance after change Value；The resistance difference between described second resistance value and the first resistance value detected；Described resistance difference with change The control instruction corresponding to temperature becoming described at least part of region can be mated.

In described method, the resistance value of described inductive reactance changes voluntarily according to the temperature detected, Specifically include: sense that a release region of described display unit is belonged to by a pressure, described release region In described at least part of region；Detect that the temperature of described release region changes；And, described pressure Numerical value and described temperature change value meet the unlocking condition that described electronic equipment is predetermined.

In described method, the resistance value of described inductive reactance changes voluntarily according to the temperature detected, Specifically include: sense that an image-region of described display unit is belonged to by a pressure, described image-region In described at least part of region；Detect that the temperature of described image-region changes；And, described pressure The running orbit of numerical value, pressure contact point and described temperature change value show that this image-region shows one Flame.

In described method, the resistance value of described inductive reactance changes voluntarily according to the temperature detected, Specifically include: sense that the temperature of described display unit there occurs change, be not detected by appointing of display unit What region receives pressure；Judge that the ambient temperature of described display unit local environment there occurs change；And, When described ambient temperature changes, the corresponding display image changing described display unit.

In described method, described semiconductive thin film includes temperature and resistance；Described temperature and resistance is according to described Control instruction changes the electric current by described temperature and resistance self, changes, with correspondence, the heat that this temperature and resistance produces Amount.

A kind of electronic equipment, described electronic equipment at least includes a display unit and a control unit, described electricity Subset also includes: the semiconductor thin film being arranged on described display unit, the one of described semiconductive thin film Subregion or Zone Full can change temperature according to the control instruction from described control unit.

In described electronic equipment, semiconductive thin film includes inductive reactance, and inductive reactance, for loading Initial duty, corresponding one first resistance value it is in after one operating current；The electricity of described inductive reactance Resistance changes voluntarily according to the temperature detected, has one second resistance value after change；Notify described control Unit processed, according to the resistance difference between described second resistance value and the first resistance value, finds described in change at least Control instruction corresponding to the temperature of subregion.

In described electronic equipment, semiconductive thin film includes temperature and resistance；Temperature and resistance, for according to control System instruction changes the electric current by described temperature and resistance self, to change the heat that this temperature and resistance distributes.

The having the beneficial effect that of the technique scheme of the present invention: be able to detect that and occur on the display unit Various changes, these changes include being triggered by outside operation, and are touched by the different content shown Send out, semiconductive thin film can be controlled according to these control instructions triggering generation and produce at least part of region Heat amount so that at least partly the temperature in region raises, and improves user and uses the experience of electronic equipment.

Accompanying drawing explanation

Fig. 1 represents the external structure schematic diagram of a kind of electronic equipment；

Fig. 2 represents the schematic flow sheet of a kind of information processing method；

Fig. 3 represents that semiconductive thin film comprises the structural representation of several temperature control subregions；

Fig. 4 represents the internal structure schematic diagram of a kind of electronic equipment.

Detailed description of the invention

For making the technical problem to be solved in the present invention, technical scheme and advantage clearer, below in conjunction with attached Figure and specific embodiment are described in detail.

The embodiment of the present invention provides a kind of information processing method, is applied in an electronic equipment, as it is shown in figure 1, Described electronic equipment at least includes a display unit and a control unit,

As in figure 2 it is shown, method includes:

Step 201, arranges semiconductor thin film on described display unit, and described semiconductive thin film can produce Heat amount；

Step 202, when detect meet predetermined condition time, described control unit send a control instruction, Described control instruction includes the location parameter at least part of region of described display unit；

Step 203, described semiconductive thin film responds described control instruction, changes described at least part of region Temperature.

The technical scheme that application is provided, detects the various changes occurred on the display unit, these changes Including triggered by outside operation, and triggered by the different content shown, trigger according to these The control instruction generated can control semiconductive thin film and change temperature at least part of region so that user is not Only can be with vision, and the picture that can be shown by tactilely-perceptible, improve user and use electronic equipment Experience.

Semiconductive thin film specifically can use resistor matrix thin film.In resistor matrix thin film, complete including two Resistive conductor layer, in two perimeter line of resistive conductor layer, one end adds 5V voltage, one end ground connection, from And the voltage's distribiuting of uniformly continuous it is upwardly formed in a side of resistive conductor layer；Two transparent resistive conductors Layer is divided into parallel conductive strips, fillet parallel in two resistive conductor layers to intersect respectively in length and breadth, Display unit is divided into matrix of areas.The position of two fillets connected during touch sensitive display unit is exactly touch point X, Y coordinate；The number of matrix fillet determines the resolution of resistor matrix technology touch screen.Detect During touch operation, utilize the analog quantity voltage value of A/D converted measurement touch point, it is possible to calculate touch point Coordinate in all directions.

In a preferred embodiment, predetermined condition includes: when described at least part of region shows specific image Time, the things represented by described specific image has thermometer intrinsic characteristics, and so-called have thermometer intrinsic characteristics The specific image such as fire high temperature subject image such as heap, flame, or such as the cryogenic object image such as iceberg, ice cube, Specifically, when the flame of display on user's touch sensitive display unit, user will experience by the sensation of calcination, And when ice cube on user's touch sensitive display unit, ice-cold sensation will be experienced.

Can be set by described electronics in the things represented by described specific image or described thermometer intrinsic characteristics For detecting, say, that described electronic equipment has the ability of the problem gathering contact object.

In a preferred embodiment, predetermined condition includes: the region outside described at least part of region shows When showing specific image, the things represented by described specific image has thermometer intrinsic characteristics；

And things or the described thermometer intrinsic characteristics represented by described specific image can be set by described electronics For detecting.

Thermometer intrinsic characteristics specifically refers to, and the things represented by specific image has higher temperature, such as, fire Burn thing, high temp objects etc., in specific image, the temperature of temperature other things projecting of these things.

Or, the things represented by specific image has lower temperature, such as in ice and snow, torrid zone picture Sea water etc., in specific image, the temperature of these things is less than the temperature of other things of surrounding.

In a preferred embodiment, predetermined condition includes: deposit in described at least part of region when detecting When a touch operation, described touch operation and the control corresponding to temperature changing described at least part of region Instruction can be mated.

In an application scenarios, display unit is showing an interface played, and has a fire in interface Heap, fire heap is in the subregion of display unit；

Projecting other things of temperature of fire heap；

Further, the thermometer intrinsic characteristics of fire heap can be detected by electronic equipment, meets predetermined condition；

Control unit sends a control instruction, and control instruction includes the position at least part of region of display unit Put parameter；

According to control instruction, the temperature of subregion uprises, and now, touches finger in this subregion Time, it is possible to experience the thermometer intrinsic characteristics of fire heap, i.e. the temperature in this region is apparently higher than display unit The temperature in other regions.

The technology that application is provided, watches the flame in interface, and can lead to not only by vision Cross the touch feeling of the finger verity to game, improve user and use the experience of electronic equipment.

In a preferred embodiment, semiconductive thin film includes inductive reactance, and described inductive reactance is loading Initial duty, corresponding one first resistance value it is in after one operating current；

Predetermined condition includes:

The resistance value of inductive reactance changes voluntarily according to the temperature detected, has one second electricity after change Resistance；

The resistance difference between described second resistance value and the first resistance value detected；

Resistance difference can be mated with the control instruction corresponding to the temperature changing described at least part of region.

Wherein, the temperature detected is that user places a finger on display unit by caused by touch operation, Owing to the body temperature of people is 37 DEG C, the most different from the ambient temperature of the environment at display unit place, therefore, The resistance value of inductive reactance can change.

In a preferred embodiment, the resistance value of inductive reactance becomes voluntarily according to the temperature detected Change, specifically include:

Sense an image-region of described display unit by a pressure, described image-region belongs to described At least partly region；

Detect that the temperature of described image-region changes；And, the operation of the numerical value of described pressure detected Track, described running orbit shows that this image-region shows a flame.

In a preferred embodiment, the resistance value of described inductive reactance occurs voluntarily according to the temperature detected Change, specifically includes:

Sense that the temperature of described display unit there occurs change, be not detected by any region of display unit Receive pressure；

Judge that the ambient temperature of described display unit local environment there occurs change；And, when described ambient temperature When changing, the corresponding display image changing described display unit.

In an application scenarios, the technology that application above-described embodiment provides, semiconductive thin film specifically uses electricity Resistance matrix film, resistor matrix thin film includes inductive reactance and temperature and resistance, shows on the display unit One interface, during operation game:

Step 1, inductive reactance is in initial duty after being loaded with an operating current, and corresponding 1 the One resistance value；

Step 2, the interface of game occurs in that the mountain peak of a snow and ice cover, and the mountain peak quilt of snow and ice cover Have selected, now, the finger of user can touch the image-region at the place, mountain peak of snow and ice cover, applies it Pressure.

Step 3, finger touches image-region and can produce and the most different pressure, or produces different Temperature.

Electronic equipment can detect the change of this pressure of generation, or the change of temperature.

Step 4, the resistance value of inductive reactance is adjusted according to the temperature detected, has one after adjustment Two resistance values；

Electronic equipment detects the resistance difference between described second resistance value and the first resistance value；

Step 5, obtains a temperature change value according to the corresponding relation between resistance difference and variations in temperature.

Step 6, control unit sends a control instruction, and control instruction includes the location parameter of image-region； Location parameter specifically can be determined by the scope involved by the pressure of collection finger.

Step 7, display unit, the temperature value of temperature and resistance corresponding to image-region is changed according to control instruction, Specifically, can strengthen or reduce the supply current of the temperature and resistance of correspondence, in other words, supply current becomes Greatly, then the temperature of image-region can raise, and supply current diminishes, then the temperature of image-region can reduce.

In a preferred embodiment, the resistance value of inductive reactance becomes voluntarily according to the temperature detected Change, specifically include:

Sense a release region of described display unit by a pressure, described release region belongs to described At least partly region；

Detect that the temperature of described release region changes；And, the numerical value of described pressure and described temperature become Change value meets the unlocking condition that described electronic equipment is predetermined.

In an application scenarios, semiconductive thin film specifically uses resistor matrix thin film, in resistor matrix thin film Including inductive reactance, show a release region on the display unit, apply during being unlocked The step of above-mentioned technology includes:

Step 1, shows a release region on the display unit, and prompting user should be in this release region Middle execution solves latching operation accordingly.

Step 2, senses that release region is contacted display unit by a pressure, pressure from the finger of user Produced pressure.

Step 3, owing to temperature and the ambient temperature of finger are different, therefore, detects described unblock district The temperature in territory there occurs change.

Step 4, the numerical value of pressure and temperature change value meet the unlocking condition that described electronic equipment is predetermined, have Body includes: the numerical value of pressure has reached predetermined unlocking pressure threshold value, and temperature change value shows from finger Temperature is 37 DEG C.

Step 5, control unit determines to be unlocked the display unit of electronic equipment.

In a preferred embodiment, semiconductive thin film includes temperature and resistance；Temperature and resistance is according to described control Instruction changes the electric current by temperature and resistance self, changes, with correspondence, the heat that this temperature and resistance produces.

In an application scenarios, temperature and resistance is distributed in semiconductive thin film, or at described semiconductor film The underface of film, by the heat Q that controls self to produce number control on semiconductive thin film not same district The temperature in territory,

As it is shown on figure 3, semiconductive thin film to be divided into several temperature control subregions, each temperature control subregion Area sufficiently small, place the sub-resistance of at least one temperature control, temperature control in this temperature control subregion or immediately below it The operation principle of sub-resistance includes:

Thermodynamics Formulas: P=I²*R；Wherein, P is heating power, and I is operating current, and R is temperature control The resistance of resistance.

When temperature and resistance receives the control instruction from control unit, determine to be heated up in subregion Time, determine one or more concrete temperature control subregion according to the location parameter in control instruction, controlling should The operating current I of the sub-resistance of temperature control that temperature control subregion is corresponding, i.e. raise operating current I.

When temperature and resistance receives the control instruction from control unit, determine subregion is lowered the temperature Time, determine one or more concrete temperature control subregion according to the location parameter in control instruction, controlling should The operating current I of the sub-resistance of temperature control that temperature control subregion is corresponding, i.e. reduce operating current I.

The embodiment of the present invention provides a kind of electronic equipment, and described electronic equipment at least includes a display unit and Control unit, as shown in Figure 4, electronic equipment also includes:

The semiconductor thin film being arranged on described display unit, a part of region of described semiconductive thin film or Person's Zone Full can change temperature according to the control instruction from described control unit.

In a preferred embodiment, semiconductive thin film includes inductive reactance, and inductive reactance, for adding Initial duty, corresponding one first resistance value it is in after having carried an operating current；Described inductive reactance Resistance value changes voluntarily according to the temperature detected, has one second resistance value after change；

Notify that described control unit, according to the resistance difference between described second resistance value and the first resistance value, is looked for To the control instruction corresponding to temperature changing described at least part of region.

In a preferred embodiment, semiconductive thin film includes temperature and resistance；Temperature and resistance, for basis Described control instruction changes the electric current by described temperature and resistance self, to change the heat that this temperature and resistance distributes Amount.

It is recognised that the semiconductor thin film being arranged on described display unit, the one of described semiconductive thin film Some or all of region can change temperature according to the control instruction from described control unit.

Semiconductive thin film specifically can use resistor matrix thin film, and resistor matrix thin film includes the resistance that two-layer is transparent Property conductor layer, also includes sealing coat and electrode between two-layer resistive conductor layer.

Resistive conductor layer selects resistive material, as indium tin oxide (ITO) is coated on substrate composition, upper resistive Conductor layer substrate use plastics, under resistive conductor layer substrate use glass.

Sealing coat is viscosity insulating liquid material, and such as mylar, electrode selects the material that electric conductivity is fabulous, Constituting such as argentum powder ink etc., the electric conductivity of electrode is about 1000 times of ITO.

Display unit work time, upper resistive conductor layer and under resistive conductor layer be equivalent to a resistor network；When When a certain layer electrode is plus voltage, voltage gradient can be formed on this resistor network.Make up and down if any external force Two resistive conductor layers contact in certain point, then another layer being not powered on pressing at electrode can record at contact point Voltage, thus know the coordinate at contact point.Such as, the electrode (X+, X-) of upper resistive conductor layer adds Upper voltage, then form voltage gradient on upper resistive conductor layer, make upper and lower two resistive conductor layers when there being external force Certain point contact, under resistive conductor layer can record the voltage at contact point, further according to this voltage with electricity Distance relation between pole (X+), calculates the X-coordinate at this contact point；Then, voltage switching is arrived Under resistive conductor layer electrode (Y+, Y-) on, and measure the voltage at contact point layer by layer at upper resistive conductor, Thus calculate the Y coordinate of contact point.

In an application scenarios, the technology that application above-described embodiment provides, temperature and resistance is distributed in and partly leads In body thin film, or the underface at described semiconductive thin film, by controlling the heat Q's of self generation How much control the temperature of zones of different on semiconductive thin film,

Semiconductive thin film is divided into several temperature control subregions, and the area of each temperature control subregion is enough Little, place the sub-resistance of at least one temperature control, the work of the sub-resistance of temperature control in this temperature control subregion or immediately below it A Thermodynamics Formulas: P=I is included as principle²*R；Wherein, P is heating power, and I is operating current, R It it is the resistance of the sub-resistance of temperature control.

When temperature and resistance receives the control instruction from control unit, determine to be heated up in subregion Time, determine one or more concrete temperature control subregion according to the location parameter in control instruction, controlling should The operating current I of the sub-resistance of temperature control that temperature control subregion is corresponding, i.e. raise operating current I.

When temperature and resistance receives the control instruction from control unit, when determining subregion is lowered the temperature, Determine one or more concrete temperature control subregion according to the location parameter in control instruction, control this temperature control The operating current I of the sub-resistance of temperature control that subregion is corresponding, i.e. reduce operating current I.

Advantage after using this programme is: plate the resistive film matrix of layer of transparent, resistance on the display unit Film matrix relies on the operating current loaded and gives off heat, and this resistive film matrix can also change according to variations in temperature Variable resistive value changes, and then changes regional area or the temperature in whole region of display unit；Due to The display unit using above-mentioned technology is equivalent to add temperature feedback mechanism so that user is in use Experience not only by vision, and can experience, by sense of touch, the picture that display unit shows, Improve the experience of user.

The above is the preferred embodiment of the present invention, it is noted that for the common skill of the art For art personnel, on the premise of without departing from principle of the present invention, it is also possible to make some improvements and modifications, These improvements and modifications also should be regarded as protection scope of the present invention.

Claims (12)

1. an information processing method, is applied in an electronic equipment, and described electronic equipment at least includes one Display unit and a control unit, it is characterised in that

Method includes:

Arranging semiconductor thin film on described display unit, described semiconductive thin film can produce heat；

When detect meet predetermined condition time, described control unit send a control instruction, described control refers to Order includes the location parameter at least part of region of described display unit, and described predetermined condition includes: when During the display specific image of described at least part of region, the things represented by described specific image has temperature and characterizes Characteristic；

Described semiconductive thin film responds described control instruction, described at least partly according to the change of described location parameter The temperature in region.

Method the most according to claim 1, it is characterised in that described predetermined condition also includes:

Things or described thermometer intrinsic characteristics represented by described specific image can be by described electronic equipments Detect.

Method the most according to claim 1, it is characterised in that described predetermined condition includes:

When the region outside described at least part of region shows specific image, represented by described specific image Things there is thermometer intrinsic characteristics；

And things or the described thermometer intrinsic characteristics represented by described specific image can be set by described electronics For detecting.

Method the most according to claim 1, it is characterised in that described predetermined condition includes:

When detect in described at least part of region, there is a touch operation time, described touch operation and change The control instruction corresponding to temperature in described at least part of region can be mated.

Method the most according to claim 1, it is characterised in that described semiconductive thin film includes sense Answering resistance, described inductive reactance is in original operating state, correspondence one first after being loaded with an operating current Resistance value；

Described predetermined condition includes:

The resistance value of described inductive reactance changes voluntarily according to the temperature detected, has one after change Two resistance values；

The resistance difference between described second resistance value and the first resistance value detected；Described resistance difference with change The control instruction corresponding to temperature becoming described at least part of region can be mated.

Method the most according to claim 5, it is characterised in that the resistance value root of described inductive reactance Change voluntarily according to the temperature detected, specifically include:

Sense a release region of described display unit by a pressure, described release region belongs to described At least partly region；

Detect that the temperature of described release region changes；And, the numerical value of described pressure and described temperature become Change value meets the unlocking condition that described electronic equipment is predetermined.

Method the most according to claim 5, it is characterised in that the resistance value root of described inductive reactance Change voluntarily according to the temperature detected, specifically include:

Sense an image-region of described display unit by a pressure, described image-region belongs to described At least partly region；

Detect that the temperature of described image-region changes；And, the numerical value of described pressure, pressure contact point Running orbit and described temperature change value show that this image-region shows a flame.

Method the most according to claim 5, it is characterised in that the resistance value root of described inductive reactance Change voluntarily according to the temperature detected, specifically include:

Sense that the temperature of described display unit there occurs change,

Any region being not detected by display unit receives pressure；

Judge that the ambient temperature of described display unit local environment there occurs change；And, when described ambient temperature When changing, the corresponding display image changing described display unit.

Method the most according to claim 1, it is characterised in that described semiconductive thin film includes temperature Degree resistance；

Described temperature and resistance changes the electric current by described temperature and resistance self according to described control instruction, with right The heat that this temperature and resistance produces should be changed.

10. an electronic equipment, described electronic equipment at least includes a display unit and a control unit, its It is characterised by,

The semiconductor thin film being arranged on described display unit, described semiconductive thin film can produce heat；

Control unit, for when detect meet predetermined condition time, send a control instruction, described control refers to Order includes the location parameter at least part of region of described display unit, and described predetermined condition includes: when During the display specific image of described at least part of region, the things represented by described specific image has temperature and characterizes Characteristic；

Described semiconductive thin film, is used for responding described control instruction, according to described location parameter change described in extremely The temperature in small part region, wherein, a part of region of described semiconductive thin film or Zone Full can roots Temperature is changed according to the control instruction from described control unit.

11. electronic equipments according to claim 10, it is characterised in that in described semiconductive thin film Including inductive reactance,

Inductive reactance, for being in initial duty after being loaded with an operating current, corresponding one first Resistance value；The resistance value of described inductive reactance changes voluntarily according to the temperature detected, has after change One second resistance value；

Notify that described control unit, according to the resistance difference between described second resistance value and the first resistance value, is looked for To the control instruction corresponding to temperature changing described at least part of region.

12. electronic equipments according to claim 10, it is characterised in that in described semiconductive thin film Including temperature and resistance；

Temperature and resistance, for changing the electric current by described temperature and resistance self according to described control instruction, with Change the heat that this temperature and resistance distributes.