CN104331185B - Input unit - Google Patents

Abstract

The problem of the present invention is to provide a kind of input unit that by the operation of finger the display content of picture can be made dimensionally to rotate.Therefore, input unit has the TIP of detection coordinate and detects multiple force snesors of operating physical force.2 operating positions (T1, T2) are configured in display content (V2) by the operation of 2 fingers, thus, it is possible to be rotation process object by display content (V2) selection.It is larger by will be set to the operating physical force (F1) of the 1st operating position (T1) compared with to the operating physical force (F2) of the 2nd operating position (T2), display content (V2) can be made to be shown as being rotated to the directions of α 1 centered on rotary shaft (O1).

Description

Input unit

Technical field

The present invention relates to one kind to be equipped on carrying information terminal, game device or personal computer etc., and can pass through hand The operation of finger etc. makes the input unit that the display content of display part is rotated.

Background technology

In patent document 1, a kind of image processing apparatus of touch panel overlapping in display picture is disclosed.

It is any in wanting to make multiple blocks (block) shown in display picture for the image processing apparatus In the case of one rotation, the image for the block for wanting rotation is pressed with club (stick), before then being pressed with club By the right side of the part pressed through.By double-clicking (double tap) operation as progress, the image of block can be made to the right Rotation.

In the image processing apparatus described in patent document 1, double click operation is carried out with club, it is light by the 1st time The position relationship of position and the touch of the 2nd time is hit to determine direction of rotation.However, it is very difficult to counter-rotation direction it is remote two at enter Row touch operation, and easily carry out the input operation of mistake.

In patent document 2, a kind of overlapping on a display panel information of pressure sensor and touch panel is disclosed Processing unit.

The information processor is according to the position testing result and pressure sensing detected when operating touch panel Bearing a heavy burden to determine the execution of operation processing detected by device.

For example, detecting which operated key shown on a display panel is designated and presses by touch panel When force snesor detects authorized pressure, it is judged as operating the operated key.Or detected based on multiple pressure sensors The heavy burden change arrived, to set the rolling speed for the content for being shown in display picture.

But in patent document 2, the operation that the display content on making display picture rotates has no record.

Citation

Patent document

Patent document 1：TOHKEMY 2007-102495 publications

Patent document 2：TOHKEMY 2011-221640 publications

The content of the invention

The invention problem to be solved

The present invention is that solve the invention of above-mentioned existing problem, and its object is to provide one kind by shirtsleeve operation to make In the input unit that the display content that display part is shown is rotated in many ways.

The means to solve the problem

It is a feature of the present invention that it is provided with：TIP, it detects the coordinate of operating position；Multiple force snesors, its Detection is applied to the operating physical force of the TIP；Coordinate detection unit, it can be defeated based on the detection from the TIP Go out, the coordinate of multiple operating positions is detected separately；With power test section, it is defeated based on the detection from the force snesor Go out, detect the difference of the operating physical force of multiple operating positions,

Display control unit is additionally provided with, its difference in the operating physical force of the multiple operating positions detected by the power test section During as the regulation above, generation makes the display signal that the display content of display part is rotated.

In the present invention, input pattern configuration part is additionally provided with, the input pattern configuration part is being judged as being examined by the power When the difference of the operating physical force for multiple operating positions that survey portion detects is more than regulation, setting makes the rotation that display content is rotated Pattern.

For example, display content is set to be rotated towards the big operating position of operating physical force.Or make display content towards operation The small operating position of power is rotated.

In addition, the present invention can also be in the operating physical force for the multiple operating positions for being judged as being detected by the power test section Difference judges that at least one operating position there occurs during movement, makes display content for regulation above and in the coordinate detection unit To be rotated towards there occurs mobile operating position.

The present invention, for example, the input pattern configuration part, rotation is set according to the coordinate position of multiple operating positions Axle, and the display content is pivoted about with the rotary shaft.

Or the rotary shaft for being rotated display content can also predetermine according to display content.At this In the case of, it can be configured to：Multiple rotary shafts are set according to display content, the input pattern configuration part is according to multiple The coordinate position of operating position, setting make the display content be pivoted about with which rotary shaft.

Invention effect

The present invention asks for the coordinate position of multiple operating positions using TIP, and detects and be applied to the operating position Operating physical force difference, thus, it is possible to enter to exercise display content rotation processing.

In managing in this place, it can be revolved accordingly the display content of display picture with the three-dimensional manipulating power of finger Turn, easily make that the direction of the operation of finger is close with the trend of display content, and operation feeling is good.

Brief description of the drawings

Fig. 1 is the circuit module figure of the input unit of embodiments of the present invention.

Fig. 2 is the TIP and force snesor (Force used in the input unit of embodiments of the present invention Sensor configuration instruction figure).

Fig. 3 is the profile for the construction for representing force snesor,

Fig. 4 is the explanation figure for the movement for representing the display content under two-dimensional model.

Fig. 5 is the explanation figure of the rotary mode of display content.

Fig. 6 is the explanation figure for representing the operation for setting rotary shaft.

Fig. 7 is the explanation figure for representing the operation for setting rotary shaft.

Fig. 8 is the explanation figure for representing the operation for setting rotary shaft.

Fig. 9 is the explanation figure for representing to make display content surround the operation that rotary shaft set in advance is rotated.

Figure 10 is the explanation figure for representing to make display content surround the operation that rotary shaft set in advance is rotated.

Figure 11 is the flow chart of one of the action for representing the input unit of the present invention.

Embodiment

As shown in figure 1, the input unit of embodiments of the present invention has TIP 1, the display surface as display part Plate 5 and force snesor 10.

Display panel 5 shown in Fig. 2 is color liquid crystal display panel or the electrochromism for having backlight (Electrochromic) element etc..

TIP 1 is provided with front of the display picture 5a of display panel 5.Base material 2 of the TIP 1 in translucency It is upper to be uniformly set multiple 2nd electrode layers 4 with multiple 1st electrode layers 3.Base material 2 is PET etc. transparent thin-film or propylene tree The translucency sheet material that fat etc. is formed.1st electrode layer 3 is formed with the 2nd electrode layer 4 by ITO etc. transparent electrode material.1st electricity The electrode layer 4 of pole layer 3 and the 2nd is formed at the different faces of base material 1 on cross one another direction or insulated from each other is formed at base material 1 identical faces.On the surface of TIP, the coating of translucency is provided with.

Drive circuit is set in TIP 1, and pulse-like voltage is applied to the 1st electrode layer 3 in order, then in order Pulse-like voltage is applied to the 2nd electrode layer 4.When applying voltage to the 1st electrode layer 3, the 2nd electrode layer 4 makes as detecting electrode With.If applying pulse-like voltage to any one in the 1st electrode layer 3, electric current moment flows to the 2nd all electrode layers 4.If The finger of people touches any one position of TIP 1, then forms electrostatic capacitance between the 1st electrode layer 3 and finger, Current direction finger when being applied with voltage to the 1st electrode layer 3, decline so as to flow to the magnitude of current of the 2nd electrode layer 4.

As shown in figure 1, it is connected with coordinate detection unit 21 in TIP 1.For coordinate detection unit 21, by monitoring to more Which of individual 1st electrode layer 3 electrode layer is applied with the change of the timing information and the magnitude of current of voltage, is being inputted to detect Position on panel 1 in the X-coordinate for the operating position that finger is contacted.Similarly, arteries and veins is being applied to the 2nd electrode layer 4 in order When rushing shape voltage, the change of the magnitude of current of the 1st electrode layer 3 is flowed to by monitoring, to check the Y of operating position that finger contacted Position on coordinate.

For aforesaid way, during many places on the surface that TIP 1 is touched in finger, each hand can be detected separately The coordinate position of the operating position of finger.Because the detection mode of the contact for the finger for detecting many places has been invented many kinds, because And the TIP 1 of the present invention can make in any way.

As shown in Fig. 2 force sensor 10 is set between display panel 5 and TIP 1.Inputted with finger manipulation During panel 1, the power of TIP 1 is applied to from finger to detect by force snesor 10.

Fig. 3 shows one of the construction of force snesor 10.Force snesor 10 is MEMS.Force snesor 10 with Flexure member 12 is provided with recess 11a substrate 11, in flexure member 12 formed with the teat 12a as pressed portion. The deformed region of flexure member 12, it is configured with detecting element 13.Detecting element 13 is strain gauge or piezoelectric element etc..By detection member Part 13 detects the deformation of flexure member 12, so as to detect the power for being applied to force snesor 10.

As shown in Fig. 2 being applied to the operating physical force of TIP 1 by multiple force snesors 10 to detect, it detects output It is provided to the power test section 22 shown in Fig. 1.The coordinate data of the operating position obtained by coordinate detection unit 21 by power with being detected The detection data for the operating physical force that portion 22 obtains is provided to input pattern configuration part 23.

For the input unit shown in Fig. 2, in the TIP 1 with multiple finger manipulations, pass through coordinate detection unit 21 To detect the coordinate position of the operating position of each finger.In the state of the coordinate position of multiple operating positions has been known, lead to Cross and be applied to the operating physical force of TIP 1 using multiple force snesors 10 to detect, so as to which input pattern configuration part 23 can be right The difference for being applied to the operating physical force of multiple operating positions carries out computing.Moreover, it can will also be applied to the operation of each operating position Power quantizes according to each operating position.

In this case, it is necessary to the quantity that detect the operating position of operating physical force it is identical with the quantity of force snesor 10 or Person's force snesor 10 it is more.For example, in order to ask for the operating physical force of the operating position at two difference, it is necessary to set 2 with On force snesor 10.

Input pattern configuration part 23 shown in Fig. 1 is applied to the operation of TIP 1 by asking in multiple operating positions The difference of power, to set any one in two-dimentional input pattern or rotary mode (three dimensional pattern).Based on set input mould Formula gives graphics control signals to display control unit 24, and display signal is given from display control unit 24 to display panel 5 to control It is shown in display picture 5a image.

Coordinate detection unit 21, power test section 22, input pattern configuration part 23 and display control unit 24 shown in Fig. 1, base Software in the memory in input unit, performed by the CPU in input unit.

In Figure 11 flow chart, show that the processing for the setting that input pattern is carried out in input pattern configuration part 23 is moved Make.In fig. 11, various processes are represented with " ST ".

Processing action when hereinafter, at the two of TIP 1 with 2 finger manipulations illustrates.

In Figure 11 ST1, the detection for monitoring whether to have obtained with finger manipulation TIP 1 from coordinate detection unit 21 is believed Number.If the detection signal that acquisition is operated with finger in ST1, then in ST2, based on from coordinate detection unit 21 Detection signal, to differentiate the operation that 1 finger carried out or the operation that 2 fingers are carried out.

Be determined as be 1 finger carried out operation when be transferred to ST3, set the input of the operation based on 1 finger Pattern.The input pattern of operation based on 1 finger, e.g. make shown figure in the display picture 5a of display panel 5 Operation of menu in the mobile operation of cursor (cursor) as in, selection image etc..

ST4 is transferred to if being judged as finger in ST2 and being to the operating position of TIP 1 at two.In ST4, root Sensed according to the coordinate information from the operating position at two that coordinate detection unit 21 obtains and each power obtained from power test section 22 The detection information for the operating physical force that device 10 is detected, to judge to be applied to whether the difference of the operating physical force of the operating position at two exceedes Setting, prespecified threshold value whether is exceeded.

In ST4, if being judged as being less than setting to the difference of the operating physical force of the operating position at two, shifted to ST5, and Two-dimensional model is set by input pattern configuration part 23.

Figure 4 illustrates the input action of two-dimensional model.In the 1st operating position T1 operating physical force F1 and the 2nd operating portion In the case that position T2 operating physical force F2 difference is very small, two-dimensional model is set.In two-dimensional model, if making the 1st operating position T1 Linearly moved along track R1 with the 2nd operating position T2, then by being supplied to the display of display panel 5 from display control unit 24 Signal, display content (display object) V1 shown under 2 operating positions T1, T2 can be made to be moved along track R1.In addition, If making the 1st operating position T1 and the 2nd operating position T2 rotate along track R2, can make to show under 2 operating positions T1, T2 Display content (display object) V1 along track R2 rotate.That is, can obtain with 2 fingers keep display content V1 make its along with Plane parallel display picture 5a moves such operation feeling.

In addition, in the 2 d mode, if pulling open the distance between 2 operating positions T1, T2, in the display of its lower display Content V1 is exaggerated, if reducing the distance between 2 operating positions T1, T2, display content V2 is reduced.In the 2 d mode Also the zoom operations of image can be carried out.

In ST4, if being judged as the 1st operating position T1 operating physical force F1 and the 2nd operating position T2 operating physical force F2 difference Setting is exceeded, then input pattern has been set as by rotary mode (three dimensional pattern) by input pattern configuration part 23.If setting Rotary mode, then the processing of ST6 to the ST10 shown in Figure 11 is carried out in input pattern configuration part 23.

In ST6, selection should make its display content rotated, in ST7, set the rotation for rotating display content Rotating shaft.In ST8, differentiate which of the operating physical force of 2 operating positions power is big, towards the direction that operating physical force is strong in ST9 To determine direction of rotation.In ST10, the difference of operating physical force F1, F2 based on 2 operating positions or than setting rotary speed.Base Display control signal is given from input pattern configuration part 23 to display control unit 24 in the processing, use is generated by display control unit 24 In the display signal for rotating display content, to control the display content of display panel 5.

Hereinafter, the input operation under rotary mode is illustrated referring to the drawings.

If as shown in figure 5, the 1st operating position T1 operating physical force F1 and the 2nd operating position T2 operating physical force F2 difference exceedes Setting, then set rotary mode.

In the example of hgure 5, two fingers are set on display content (display object) V2 that rotate it, carried out such as Operation as display content V2 is kept with by the 1st operating position T1 and the 2nd operating position T2.By the holding operate come Select the display content V2 (ST6) that should be rotated.Or can also be by only by the 1st operating position T1 and the 2nd operating position T2 Any one party configure on display content V2, to select the display content V2 that should be rotated.

Or as shown in fig. 6, finger is set to touch on the display content V2 for wanting to rotate it or in display content V2 On carry out touching operation or double click operation.Thus, the display content V2 (ST6) that should be rotated is selected, such as carries out display content V2 The bloom that changes etc. of display color show.In this case, even if the 1st operating position T1 and the 2nd operating position T2 quilts The position away from display content V2 is set in, can also realize the operation for being shown rotated at display content V2.

In the operation example shown in Fig. 5 and Fig. 6, the relative position based on the 1st operating position T1 and the 2nd operating position T2 is closed System, to set the rotary shaft O1 (ST7) for making display content V2 rotational displays.

As shown in fig. 6, in ST7 control process, coordinate center and the 2nd operation for linking the 1st operating position T1 are asked for The input action line L1 at position T2 coordinate center, by for make display content V2 rotate rotary shaft O1 be set in it is described defeated Enter position L1 generally perpendicular directions (ST7).In figure 6, because input action line L1 is relative to as picture direction in length and breadth X-direction and Y-direction and tilt, therefore rotary shaft O1 is set with being inclined by relative to X-direction with Y-direction.Pass through the rotation Rotating shaft O1 setting, can realize makes display content V2 in the inclined display rotated on.This is also identical in Figure 5.

In Fig. 5 and Fig. 6 operation example, due to operations of the 1st operating position T1 operating physical force F1 than the 2nd operating position T2 Power F2 is big (ST8), therefore display content V2 direction of rotation is decided to be the clockwise direction i.e. sides of α 1 relative to rotary shaft O1 To (ST9).

In the operation example shown in Fig. 5 and Fig. 6, by after it have selected the display content V2 to be rotated, entering to be about to the 1st Operating position T1 presses the operation of that sensation towards display picture 5a strongly, and can make to show in display picture 5a shows Show that content V2 is shown as being rotated to the directions of α 1.

In addition, as shown in ST10, according to the 1st operating position T1 operating physical force F1 and the 2nd operating position T2 operating physical force F2 Difference or ratio, the rotary speed that display content V2 rotates to the directions of α 1 can be made to change.That is, by according in the 1st operation The mode that position T1 presses finger strongly is operated, and display content V2 can be made quickly to be rotated.

In addition it is also possible to according to the 1st operating position T1 operating physical force F1 and the 2nd operating position T2 operating physical force F2 difference or Than to determine the angle for rotating display content V2.For example, it is also possible to it is display control as following：If in the 1st operating portion Position T1 operating physical force F1 is weaker, then display content V2 stops after only rotating the angle of very little to the directions of α 1, if the operating physical force F2 It is larger, then rotate and stop after display content V2 rotates larger angle to the directions of α 1.

On the contrary, in Fig. 5 and Fig. 6, if the 2nd operating position T2 operating physical force F2 is more than the 1st operating position T1 operation Power F1, then display content V2 rotated to the direction in opposite direction with α 1.

Fig. 7 and Fig. 8 shows other display examples for setting rotary shaft.

In the display example shown in Fig. 7, link the 1st operating position T1 coordinate center and the 2nd operating position T2 coordinate The input action line L1 and Y-direction at center are almost parallel.Therefore, rotary shaft O2 is set to substantially parallel with X-direction.At this Under state, if being more than the operating physical force F1, display content V3 in the 2nd operating position T2 in the 1st operating position T1 operating physical force F1 It is shown as being rotated to the directions of β 1 centered on towards horizontal rotary shaft O2.

In the display example shown in Fig. 8, link the 1st operating position T1 and the 2nd operating position T2 input operation line L3 and Display picture 5a transverse direction (X-direction) extends parallel to, and display content V3 rotary shaft O3 is set to substantially put down with Y-direction OK.In this condition, if being more than the operating physical force F1 in the 2nd operating position T2 in the 1st operating position T1 operating physical force F1, show Content V3 is shown as being rotated to the directions of β 2 centered on the rotary shaft O3 towards longitudinal direction.

Operation example shown in Fig. 5 to Fig. 8 according to link operating position T1 and operating position T2 input action line L1, L2, L3 direction determines rotary shaft, but the details of the determining method are, for example, contemplate multidirectional rotation in advance in display picture Rotating shaft, selection and the closest rotary shaft of the line vertical with input action line L1, L2, L3.

In Fig. 9 and Figure 10, the other embodiment of the setting about rotary shaft is shown.

The display content V4 occurred in image shown in Fig. 9 and Figure 10 has been prescribed rotary shaft O4 and rotary shaft O5 this 2 Rotary shaft.Using display content V4 as object to observe when, rotary shaft O4, O5 is determined by the relative position with the object It is fixed.Therefore, no matter which type of direction display content V4 angles of display is, this 2 rotary shafts O4, O5 all by with it is shown Display content V4 relative position determine.

As shown in figure 9, selection will make it surround block (piece) P1 that rotary shaft O4 is rotated from display content V4, Make the 1st operating position T1 and the 2nd operating position T2 relative position towards the direction intersected with rotary shaft O4, by the 1st operating portion Position T1 operating physical force F1 is set to sufficiently large compared with the 2nd operating position T2 operating physical force F2, thus enables that block P1 is shown as Rotated centered on rotary shaft O4 to the directions of γ 1.

Or as shown in Figure 10, selection will make it surround the block P2 that rotary shaft O5 is rotated, and make the 1st operating position T1 With the 2nd operating position T2 relative position towards the direction intersected with rotary shaft O5, by the 1st operating position T1 operating physical force F1 and 2nd operating position T2 operating physical force F2 is sufficiently large compared to being set to, and thus enables that block P2 centered on rotary shaft O5 to the sides of γ 2 To being rotated.

In said embodiment, the 1st operating position T1 is set by making the surface of 2 fingers contact TIPs 1 With the 2nd operating position T2, and the power that finger is pressed to the surface of TIP 1 is set to relatively strong, can make display content It is shown as receiving the operating position pressed more by force towards display content and is rotated.But in the present invention, can also be such as figure Shown in 5, make the 1st operating position T1 operating physical force F1 it is bigger than the 2nd operating position T2 operating physical force F2 after, and then carry out During the operation for making the finger for setting the 1st operating position T1 somewhat be moved along the track R3 towards display content direction of rotation, Display content is shown as to start spinning movement.

In addition, sometimes also can 3 fingers touch the surface of display panel 5 so as to be carried out by the operating position at three Operation.In the case, the difference of the pressing force of 3 fingers can be asked for, and makes display content to being set maximum operating physical force Operating position rotated.

Moreover, when showing the display content V4 shown in Fig. 9, can also while enter to exercise the finger of left hand and block P1 with Outer display content V4 be in contact so as to left hand to carrying out keeping such operation beyond block P1, while with right hand selection block P1 Come setting operation position T1, T2, be shown as only making block P1 be rotated to the directions of γ 1.

In addition, in the input unit shown in Fig. 2, display panel 5 overlaps with TIP 1, and such as the institute such as Fig. 5 Show, finger is touched setting operation position T1, T2 on display content V2, but TIP 1 can also divide with display panel 5 Open configuration.In this case, if making finger contact TIP 1 set the 1st operating position T1 and the 2nd operating position T2, The display with F1, F2 circular mark represented etc. can occur, and be shown round in the display picture 5a of display panel 5 The size of mark changes according to the difference of operating physical force.

In addition, as shown in Fig. 2 even if display panel 5 overlaps with TIP 1, can also as shown in fig. 5 or the like, Display in the 1st operating position T1 and the 2nd operating position T2 appearance with F1, F2 circular mark represented etc., and circular mark Size changes according to the difference of operating physical force.

Alternatively, it is also possible in ST4, in the behaviour for the operating physical force F1 and the 2nd operating position T2 for being judged as the 1st operating position T1 When making power F2 difference and having exceeded setting, set rotary mode (three dimensional pattern), make display content V2 to the 1st operating position T1 Operating physical force F1 and the 2nd operating position T2 operating physical force F2 in the small direction of operating physical force rotated.

For example, in Figure 5, make operating physical force F2s of the 1st operating position T1 operating physical force F1 more than the 2nd operating position T2 so as to Rotary mode is set, and makes finger tapping down in the 2nd operating position F2 for being applied with less operating physical force F2, thus can also be realized The display for making display content V2 be rotated to the direction in opposite direction with α 1.

Or can also be in the state of operating physical force F2 ＜ operating physical forces F1 be maintained, by the operation for somewhat increasing smaller side Power F2, display content V2 is set to be rotated to the direction in opposite direction with α 1.

Furthermore, it is also possible on the equally edge of the situation shown in the operating position for the side for having carried out making operating physical force small and Fig. 5 When the operation that the track R3 towards direction of rotation is somewhat moved, display content is shown as to start spinning movement.

In addition, in said embodiment, in input pattern configuration part 23, it is being judged as the 1st operating position T1 behaviour When making power F1 and the 2nd operating position T2 operating physical force F2 difference and having exceeded setting, rotary mode (three dimensional pattern), but this are set Invention is not limited to this mode, can also be based on push-botton operation, voice recognition, the acceleration spy for also having shake portable set etc. Survey, rotary mode is automatically set by input pattern configuration part 23.If rotary mode is set, 2 operating physical forces F1, F2 are detected Difference so that display content V2 is rotated.

Symbol description

1 TIP

5 display panels

5a display pictures

10 force snesors

The operating physical forces of F1 the 1st

The operating physical forces of F2 the 2nd

The operating positions of T1 the 1st

The operating positions of T2 the 2nd

V display contents

Claims (15)

1. a kind of input unit, it is characterised in that be provided with：

TIP, it detects the coordinate of operating position；

Multiple force snesors, it detects the operating physical force for being applied to the TIP；

Coordinate detection unit, multiple operating portions can be detected separately based on the detection output from the TIP in it The coordinate of position；With

Power test section, it detects the operating physical force of multiple operating positions based on the detection output from the force snesor Difference,

The input unit is additionally provided with display control unit, and the display control unit is more based on being detected by the power test section The difference of the operating physical force of individual operating position, generation make the display signal that the display content of display part is moved in parallel or rotated,

The input unit is additionally provided with input pattern configuration part, and the input pattern configuration part detects by the power test section Multiple operating positions operating physical force difference to be more than setting when, setting makes display content carry out the three-dimensional mould of three-dimensional rotation Formula, when the difference of the operating physical force of the multiple operating positions detected by the power test section is less than the setting, setting makes to show Show that content carries out the two-dimensional model of two-dimensional movement or Two Dimensional Rotating or two dimension scaling.

2. input unit according to claim 1, it is characterised in that

Display content is set to be rotated towards the big operating position of operating physical force.

3. input unit according to claim 1, it is characterised in that

Display content is set to be rotated towards the small operating position of operating physical force.

4. input unit according to claim 1, it is characterised in that

The operating physical force for the multiple operating positions for being judged as being detected by the power test section difference for it is more than setting and Judge that at least one operating position there occurs during movement, makes display content towards there occurs mobile behaviour in the coordinate detection unit Rotated as position.

5. input unit according to claim 1, it is characterised in that

Rotary shaft is set according to the coordinate position of multiple operating positions, and makes the display content centered on the rotary shaft Rotated.

6. input unit according to claim 1, it is characterised in that

Rotary shaft for being rotated display content predetermines according to display content.

7. input unit according to claim 6, it is characterised in that

Multiple rotary shafts, the input pattern configuration part, according to the seat of multiple operating positions are set according to display content Cursor position, setting make the display content be pivoted about with which rotary shaft.

8. input unit according to claim 1, it is characterised in that

The TIP is provided with multiple electrodes layer on the base material of translucency,

The coordinate detection unit flows to the magnitude of current of the electrode layer by monitoring, to detect the coordinate of operating position.

9. input unit according to claim 1, it is characterised in that

The quantity of the force snesor is identical with the quantity of the operating position of operating physical force to be detected or the number of the force snesor Amount is more.

10. input unit according to claim 1, it is characterised in that

Multiple operating positions include the 1st operating position and the 2nd operating position,

According to the operation of the operating physical force of the 1st operating position detected by the power test section and the 2nd operating position The difference or ratio of power, make the rotary speed that display content rotates change.

11. input unit according to claim 1, it is characterised in that

Multiple operating positions include the 1st operating position and the 2nd operating position,

Two fingers are set in display content, and kept by the 1st operating position with the 2nd operating position The operation of display content, thus select the display content that should be rotated.

12. input unit according to claim 1, it is characterised in that

By carrying out touching operation or double click operation in display content, to select the display content that should be rotated.

13. input unit according to claim 1, it is characterised in that

Multiple operating positions include the 1st operating position and the 2nd operating position,

Rotary shaft is set in relative to the coordinate center for linking the 1st operating position and the coordinate of the 2nd operating position The vertical direction of the input action line at center.

14. input unit according to claim 1, it is characterised in that

Multiple operating positions include the 1st operating position and the 2nd operating position,

According to the operation of the operating physical force of the 1st operating position detected by the power test section and the 2nd operating position The difference or ratio of power, to determine the angle for rotating display content.

15. input unit according to claim 1, it is characterised in that

When at the operating position is three, the difference of three operating physical forces is asked for, and display content direction has been set maximum The operating position of operating physical force is rotated.