CN107066043A - Wearable terminal and display control method - Google Patents

Abstract

A kind of wearable terminal and display control method further improved is provided.Wearable terminal has：Display part；Test section, in the direction of the display surface of different timing detection display parts；Control unit, judge whether the direction of the display surface detected is in the first judgement in the 1st angular range, when the direction of newest display surface is in outside the 1st angular range at the time of being detected by test section, display part is set to be in sleep state, otherwise display part is made to be in dispaly state, control unit also determines the 2nd angular range, 2nd angular range be by make towards the display surface of the 2nd reference direction using at least two axles in three dimensions as pivot rotate when the scope that defines of the anglec of rotation, after the direction of the display surface in during being judged to the 1st is rested in the 2nd determined angular range, when judging towards departing from 2 angular range, when towards outside the 1st angular range, also display part is made to switch to dispaly state from sleep state.

Description

Wearable terminal and display control method

Technical field

This disclosure relates to posture is detected and according to the posture detected by display part be switched to it is dormant can Dress terminal and display control method.

Background technology

A kind of following technology is disclosed in the past, i.e. in liquid crystal display formula wrist-watch, posture is detected, detected Posture be in certain angle in the range of in the case of, carry out using liquid crystal cell display, at the posture detected In the case of outside the scope of certain angle, stop display (referring for example to patent document 1).Thus, in patent document 1, Realize the battery life of extension liquid crystal display formula wrist-watch.

Prior art literature

Patent document 1：Japanese Unexamined Patent Publication 2000-65967 publications

The content of the invention

Problems to be solved by the invention

But, it is necessary to further improve in patent document 1.

Technical teaching for solving the problem was

The wearable terminal of one technical scheme of the disclosure is can be wearing on the wearable terminal of the forethiga of user, Have：Display part, the display information under dispaly state, does not show described information in a sleep state；Test section, determines in different When the direction of the display surface of the display part is detected；And control unit, (i) carries out the 1st and judged, judge the described 1st In, the direction of newest display surface at the time of detected by the test section is judged whether in the 1st angular range, described the 1 angular range is by making towards the display surface of the 1st reference direction using at least two axles in three dimensions as rotation The angular range that anglec of rotation when turning central rotation is defined, (ii) carries out the first display control, in the described 1st result judged For the newest display surface direction be in the 1st angular range outside in the case of, make the display part be the sleep State, the situation in the 1st angular range is in the 1st result judged as the direction of the newest display surface Under, it is the dispaly state to make the display part,

The control unit is also handled as follows：

(i) the 2nd angular range is determined, the 2nd angular range is to be used in the institute that the different timing is detected The direction stated at least one in the direction of display surface and determined is as the 2nd reference direction, by making towards the 2nd reference direction The display surface using at least two axles in the three dimensions as pivot rotate when the anglec of rotation definition And the angular range outside the 1st angular range, (ii) judged before the 1st scheduled time untill current Sentence the 2nd that whether direction of the multiple display surfaces detected during the 1st is rested in the 2nd angular range determined Fixed, (iii) carries out the 3rd and judged, the multiple displays detected during the described 2nd result judged represents the described 1st In the case that the direction in face is rested in the 2nd angular range determined, the institute newly detected by the test section is judged Whether the direction for stating display surface departs from the 2nd angular range, and (iv) carries out the 2nd display control, in the described 3rd result judged In the case of representing the direction of the display surface newly detected departing from the 2nd angular range, by the display part from institute Sleep state is stated to the dispaly state to switch,

In the 2nd display control, the direction even in the display surface newly detected is in described 1st jiao Spend scope it is outer in the case of, also carry out the switching from the sleep state of the display part to the dispaly state.

In addition, these master or specific technical schemes both can be by system, method, integrated circuit, computer program , can also be by system, method, integrated circuit, computer program or the recording medium such as the CD-ROM of embodied on computer readable is realized And the arbitrary combination of recording medium is realized.

The effect of invention

According to aforesaid way, further improvement can be realized.

Brief description of the drawings

Fig. 1 is the outside drawing of the wearable terminal of embodiment 1.

Fig. 2 is the block diagram of the hardware configuration for the wearable terminal for representing embodiment 1.

Fig. 3 is the block diagram of the functional structure for the wearable terminal for representing embodiment 1.

Fig. 4 is the figure that illustrates of direction of the display surface of the display part for the wearable terminal to embodiment 1.

Fig. 5 is that situation about being in for the direction to display surface in the 1st angular range and from the direction of the 1st axle is carried out The figure of explanation.

Fig. 6 is for being in the 1st angular range to the direction of display surface and the situation from the direction of the 2nd axle is said Bright figure.

Fig. 7 is the flow chart for illustrating an example of the 1st display control of the wearable terminal of embodiment 1.

Fig. 8 is to represent the display that is shown in the 1st display control realized by the control unit of embodiment 1 and wearable end The figure of relation between the posture at end.

Fig. 9 is the flow chart for illustrating an example of the 2nd display control of the wearable terminal of embodiment 1.

Figure 10 is the flow chart for illustrating an example of the decision processing of the 2nd angular range of embodiment 1.

Figure 11 is represent to pass through over time the direction of the display surface detected untill current by test section one The figure of example.

Figure 12 is the direction of the display surface of the display part for the wearable terminal for representing embodiment 1 towards the 1st angular range The figure of one example of the situation in outer direction.

Figure 13 is that situation about being in for the direction to display surface in the 2nd angular range and from the direction of the 1st axle is entered The figure of row explanation.

Figure 14 is that situation about being in for the direction to display surface in the 2nd angular range and from the direction of the 2nd axle is entered The figure of row explanation.

Figure 15 is to represent the display that is shown in the 2nd display control realized by the control unit of embodiment 1 and wearable The figure of relation between the posture of terminal.

Figure 16 is the flow chart for illustrating an example of the sleep control of the wearable terminal of embodiment 1.

Figure 17 A are the display examples shown in the case where there, i.e. make display part from sleep by the 2nd display control State is recovered to be shown.

Figure 17 B are the display examples shown in the case where there, i.e. make display part from sleep by the 2nd display control State is recovered to be shown.

Figure 18 is the stream for illustrating an example of the decision processing of the 2nd angular range of the variation 1 of embodiment 1 Cheng Tu.

Figure 19 is represent to pass through with the time direction of the display surface detected untill current by test section one The figure of example.

Figure 20 is the block diagram of the hardware configuration for the wearable terminal for representing embodiment 2.

Figure 21 is the block diagram of the functional structure for the wearable terminal for representing embodiment 2.

Figure 22 is the flow chart for illustrating an example of the 2nd display control of the wearable terminal of embodiment 2.

Figure 23 is the flow chart for illustrating an example of the 2nd display control of the variation 2 of embodiment 2.

Embodiment

(basic opinion of the invention)

The inventors discovered that the problem of the liquid crystal display formula wrist-watch that " background technology " one column is recorded can produce following.

It is to make the terminal of liquid crystal display clock in patent document 1, still, in recent years, developing not only makes liquid crystal display Device read clock but also display image and GUI (Graphic User Interface：Graphic user interface) wearable end End.As wearable terminal, for example, there is the wearable terminal for the Wristwatch-type being worn on arm.In such wearable terminal In, also can be for the purpose of extending the continuous use time once charged to battery, and as described in Patent Document 1 according to posture Liquid crystal display is switched to sleep state.For example, an arm is lifted in user be capable of visual identity wearable terminal During the position of liquid crystal display, the posture of wearable terminal now turns into triggering (trigger), makes liquid crystal display from sleep State is recovered, and is shown liquid crystal display.

But, because the wearable terminal of Wristwatch-type is wearing on an arm, thus for example worn with dress it is wearable The hand of terminal is taken when the situation of luggage, the situation of suspension ring for catching electric car or bus, cycling, using such as special Technology as sharp document 1 is highly difficult as the posture that can recover from sleep state, accordingly, it would be desirable to can using another hand pair Wearing terminal is operable to recover from sleep state.And then there is a problem in that, i.e. also hold luggage etc. in another hand And it is occupied in the case of, in order that wearable terminal from sleep state recover, it is necessary to from suspension ring unclamp hand, the handle from bicycle Hand unclamps hand, temporarily puts down luggage etc., makes wearable terminal recover to be not easy to from sleep state.

In addition, on the other hand, when relaxing the condition for making wearable terminal recover from sleep state, if for example detected Going out movement just makes wearable terminal from sleep state recovery etc., then there are the following problems, i.e. causes energy-saving effect step-down, once Continuous use time under charging shortens.

Therefore, in order to improve the function of wearable terminal, following improvement measure is discussed.

The wearable terminal of one technical scheme of the disclosure is the wearable terminal for being wearing on the forethiga of user, tool Have：

Display part, the display information under dispaly state, does not show described information in a sleep state；

Test section, is detected in different timings to the direction of the display surface of the display part；And

Control unit, (i) carries out the 1st and judged, in the described 1st judges, using the testing result of the test section, judge by Whether the direction of test section display surface newest at the time of detecting is in the 1st angular range, the 1st angular range It is by making to rotate using at least two axles in three dimensions as pivot towards the display surface of the 1st reference direction When the angular range that defines of the anglec of rotation, (ii) carries out the first display control, in the 1st result judged to be described newest Display surface direction be in the 1st angular range it is outer in the case of, it is the sleep state to make the display part, described In the case that 1st result judged is in the 1st angular range as the direction of the newest display surface, make the display Portion is the dispaly state,

The control unit is also handled as follows：

(i) the 2nd angular range is determined, the 2nd angular range is to be used in the institute that the different timing is detected The direction stated at least one in the direction of display surface and determined is as the 2nd reference direction, by making towards the 2nd reference direction The display surface using at least two axles in the three dimensions as pivot rotate when the anglec of rotation definition And the angular range outside the 1st angular range, (ii) judged before the 1st scheduled time untill current Sentence the 2nd that whether direction of the multiple display surfaces detected during the 1st is rested in the 2nd angular range determined Fixed, (iii) carries out the 3rd and judged, the multiple displays detected during the described 2nd result judged represents the described 1st In the case that the direction in face is rested in the 2nd angular range determined, the institute newly detected by the test section is judged Whether the direction for stating display surface departs from the 2nd angular range, and (iv) carries out the 2nd display control, in the described 3rd result judged In the case of representing the direction of the display surface newly detected departing from the 2nd angular range, by the display part from institute Sleep state is stated to the dispaly state to switch,

In the 2nd display control, even if the direction of the display surface newly detected is in the 1st angle When outside scope, the switching from the sleep state of the display part to the dispaly state is also carried out.

Thus, in the state of the action for the wrist that dress has worn wearable terminal is restricted, also can easily it make Display part recovers from sleep state.Therefore, though user in such a state, also can be easily from wearable terminal confirmation letter Breath.Further, since being not that only light just makes display part recover from sleep state with detection operation, so can strongly suppress to disappear Power consumption power.

In addition, the direction of the display surface of at least one is included in the 2nd phase untill current before the 2nd scheduled time Between the direction of multiple display surfaces that is detected by the test section in different timings,

The control unit will be detected in the decision of the 2nd angular range during the described 2nd by the test section Multiple display surfaces direction average direction as the 2nd reference direction, and will using the 2nd reference direction as The angular range of the use value definition set in advance at center is determined as the 2nd angular range.

Therefore, by simple method, the 2nd angular range can dynamically be determined.

In addition, the direction of the display surface of at least one was included in before the 2nd scheduled time untill current The direction of the multiple display surfaces detected during 2nd by the test section in different timings,

The control unit is judged during the described 2nd by the test section in the decision of the 2nd angular range The 4th the judgement whether direction of the multiple display surfaces detected periodically changes repeatedly, in the described 4th result judged Represent detect multiple display surfaces be oriented periodically repeatedly change in the case of, by by it is described detect it is many Display surface described in the direction of the individual display surface be respectively relative to the anglec of rotation of at least two axle maximum and The angular range that minimum value is defined is determined as the 2nd angular range.

Therefore, by simple method, the 2nd angular range can dynamically be determined.

In addition, the control unit is in the 2nd display control, it is being determined as described in newly being detected the test section The direction of display surface changes and taken off to the predetermined direction of rotation side using an axle at least two axle as pivot In the case of from the 2nd angular range, the display part is set to switch from the sleep state to the dispaly state.

Therefore, only when user makes the display surface of wearable terminal towards face, display surface is made to recover from sleep state, because This, can prevent from vainly making display surface from the generation of this case that sleep state recovery.

In addition, the wearable terminal has：

Main part, with the display part, the test section and the control unit；With

Band portion, is connected with the two ends of the main part, and the main part is annularly on the forethiga,

At least two axles in the three dimensions be the 1st axle corresponding with winding the wireline reel in the band portion and with even Corresponding 2nd axle of rotary shaft that the side at the two ends is upwardly extended is connect,

The predetermined direction of rotation is using the 1st axle as the clockwise direction of rotation of rotary shaft and counterclockwise A direction of rotation in direction of rotation.

In addition, the control unit is in the 1st display control and the 2nd display control, make information in the display Display mode in portion is different.

Therefore, even in be speculated as user be difficult to confirm display surface in the case of, for example can also user is easily confirmed The display of display on the display face.

In addition, the control unit makes the size of the image in the 2nd display control or the size of font be more than the described 1st The size of image in display control or the size of font.

In addition, the control unit makes the illumination of the backlight of the display part in the 2nd display control be higher than the described 1st The illumination of the backlight of the display part in display control.

In addition, the control unit makes the contrast of the display of the display part in the 2nd display control more than described The contrast of the display of the display part in 1st display control.

In addition, the control unit makes the display part from the sleep state to institute from the 1st display control From at the time of stating after dispaly state switching after the 1st display time, it is the sleep state to make the display part,

The control unit makes the display part from the sleep state to the display from the 2nd display control From at the time of after state switching after the 2nd display time longer than the 1st display time, it is described to make the display part Sleep state.

In addition, the control unit makes the display part show from the sleep state to described in the 2nd display control In the case of showing after state switching, according to making the display part be rung from the sleep state to the switching of the dispaly state The application program answered and shown, makes the 2nd display time different.

In addition, the wearable terminal also has notification unit,

The court for multiple display surfaces that the control unit is detected during the described 2nd result judged represents the described 1st In the case of resting in the 2nd angular range, by controlling the notification unit to inform the user the situation.

Therefore, in the case that the action of wrist of the dress with wearable terminal is restricted, also only when logical Make the postural change of wearable terminal after the notice for knowing portion, display part is recovered from sleep state.That is, Display part can be effectively set to recover from sleep state.

In addition, the wearable terminal also has notification unit,

It is described 3rd judge in judgement be the display surface newly detected direction whether to it is described predetermined The direction change of direction of rotation opposite side and the judgement for departing from the 2nd angular range, are represented in the described 3rd result judged The direction of the display surface newly detected is to the direction change and disengaging with the predetermined direction of rotation opposite side In the case of 2nd angular range, by controlling the notification unit, inform the user in the display surface next detected Direction can make the display part from the sleep state to the dispaly state when changing to the predetermined direction of rotation side The meaning of switching.

Thereby, it is possible to the direction of the display surface newly detected to the direction change of opposite side and depart from the 2nd angular range When, the situation is notified, therefore, user can be by whether the second angle scope for changing to opposite side is external to know whether it is energy Enough states recovered from sleep state.Therefore, it is possible to more effectively make display part recover from sleep state.

In addition, the notification unit is by making the wearable terminal vibration be notified to user.

In addition, the notification unit is notified by reproducing sound to user.

In addition, the wearable terminal also has the communication unit with outside terminal communication,

The notification unit is notified via the communication unit to the terminal of the outside.

In addition, the notification unit is notified by lighting to user.

In addition, the display control method of a technical scheme of the disclosure is the display control method of wearable terminal, should Wearable terminal has：

Display part, the display information under dispaly state, does not show described information in a sleep state；

Test section, is detected in different timings to the direction of the display surface of the display part；And

Processor,

In the display control method, the computing device is set to handle as follows：

The first display control is carried out, in first display control, (i) carries out the 1st and judged, in the described 1st judges, Whether the direction of newest display surface is in the 1st angular range at the time of judging to be detected by the test section, described 1st jiao Degree scope is by making towards the display surface of the 1st reference direction using at least two in three dimensions as pivot The angular range that anglec of rotation during rotation is defined, (ii) is in the 1st result judged as the court of the newest display surface In the case of outside the 1st angular range, it is sleep state to make the display part, in the court of the newest display surface In the case of in the 1st angular range, it is the dispaly state to make the display part,

In the display control method, the computing device is also set to handle as follows：

(i) the 2nd angular range is determined, the 2nd angular range is to be used in the institute that the different timing is detected The direction stated at least one in the direction of display surface and determined is as the 2nd reference direction and by making towards the 2nd benchmark side To the display surface using at least two axles in the three dimensions as pivot rotate when the anglec of rotation determine The adopted and angular range outside the 1st angular range,

(ii) the multiple displays detected in the 1st period before the 1st scheduled time untill current are judged The 2nd the judgement whether direction in face is rested in the 2nd angular range determined,

(iii) carry out the 3rd to judge, what is detected during the described 2nd result judged represents the described 1st is multiple described In the case that the direction of display surface is rested in the 2nd angular range determined, judgement is newly detected by the test section The direction of the display surface whether depart from the 2nd angular range,

(iv) the 2nd display control is carried out, the direction of the display surface newly detected is represented in the described 3rd result judged In the case of departing from the 2nd angular range, the display part is switched from the sleep state to the dispaly state,

In the 2nd display control, even if the direction of the display surface newly detected is in the 1st angle When outside scope, the switching from the sleep state of the display part to the dispaly state is also carried out.

In addition, these overall or specific forms can be by system, method, integrated circuit, computer program or computer The CD-ROM that can be read etc. recording medium realizes, can also by system, method, integrated circuit, computer program and The arbitrary combination of recording medium is realized.

Hereinafter, referring to the drawings, the wearable terminal of a technical scheme of this disclosure and display control method are carried out Illustrate.

In addition, embodiments described below is all a concrete example for representing the disclosure.In the following embodiments Shown numerical value, shape, material, inscape, the allocation position of inscape and connection form, step, the order of step Deng being an example and be not intended to and the disclosure is defined.In addition, in the inscape of following embodiment, it is right In not representing the inscape described in the independent claims of upper concept, illustrate as arbitrary inscape.

(embodiment 1)

Hereinafter, embodiment 1 is illustrated using Fig. 1~Figure 10.

[1-1. compositions]

In the present embodiment, to switching the wearable terminal of the display for being shown in display according to the posture detected Illustrate.

Fig. 1 is the outside drawing of the wearable terminal of embodiment 1.

As shown in figure 1, wearable terminal 100 is the Wristwatch-type terminal that the arm of user is wearing on as wrist-watch.It can wear Terminal 100 is worn with main part 10 and with portion 20.

The shape of the rectangular platypelloid type of main part 10, with for realizing display part, control unit, function as test section The hardware of the structure of property.In the state of wearable terminal 100 is wearing on arm, in main part 10 and arm opposite side Face has display surface 11.On the structural and functional structure of hardware, it is described below.In addition, main part 10 is not limited to The shape such as flat rectangular type or oval platypelloid type, circular platypelloid type.Main part 10 is for example by metal, glass, resin Deng composition.

It is connected with portion 20 with the two ends of main part 10, is and the banding annular in shape on the arm of user of main part 10 Component.As long as in addition, also may be used with portion 20 by being wearing on the arm of user annularly on the arm of user Be not with main part 10 surround arm it is whole around shape.That is, for example can be to have and main part with portion 10 surround the component of the banding of 4/5 shape of arm.Band portion 20 is such as the resin as silicone, metal, leather (including artificial skin Leather) etc. constitute.

Fig. 2 is the block diagram of the hardware configuration for the wearable terminal for representing embodiment 1.

As shown in Fig. 2 wearable terminal 100 has CPU101 (Central Processing as hardware configuration Unit：CPU), main storage (main memory) 102, memory (storage) 103, communication IF 104 (Interface：Interface), acceleration transducer 105,3 axis angular rate sensors 106 and display 107.

CPU101 is to perform the processor in the control program of the grade storage of memory 103.

Main storage 102 is that CPU101 performs the volatile storage area as workspace used during control program.

Memory 103 is to maintain the nonvolatile storage of control program, content etc..

Communication IF 104 is the network interface of the transceiving data between network and other devices.Communication IF 104 is, for example, to accord with WLAN (the Local Area Network of IEEE802.11a, b, g standard of conjunction：LAN) interface.

Acceleration transducer 105 is the sensor detected to the acceleration of wearable terminal 100.

3 axis angular rate sensors 106 be using different 3 direction of wearable terminal 100 as axle respectively to around 3 The sensor that the angular speed of individual axle rotation is detected.

Display 107 is the display device for showing the image including image.For example, display 107 is liquid crystal display, had Machine EL display etc..The display image under dispaly state of display 107.In addition, display 107 does not show figure in a sleep state Picture.

Fig. 3 is the block diagram of the functional structure for the wearable terminal for representing embodiment 1.

As shown in figure 3, wearable terminal 100 has test section 111, control unit 112 and display part as functional structure 113。

Test section 111 is detected to the direction of the display surface 11 of display part 113.Test section 111 is for example determined in different When (timing) direction of the display surface 11 of display part 113 is detected.More specifically, for example, test section 111 can be with every The direction of the display surface 11 of display part 113 is detected every predetermined time interval.Test section 111 is by different timing inspections The direction of the display surface 11 measured is stored in memory respectively as testing result.

Here, the direction of display surface 11 is both at least one of normal direction of display surface 11, it is the institute of display surface 11 again Towards side direction.Specifically, if display surface 11 is plane, the direction of display surface 11 is vertical with display surface 11 Direction, if display surface 11 is curved surface, the direction of display surface 11 is the normal direction of the central portion of display surface 11.

Here, being illustrated using Fig. 4 come the direction of the display surface 11 to display part 113.

Fig. 4 is the figure that illustrates of direction of the display surface of the display part for the wearable terminal to embodiment 1.

Here, as shown in figure 4, when wearable terminal 100 is wearing on forethiga 30, the direction that will extend in forethiga 30 The rotary shaft of upper extension is used as the 1st axle A1.That is, regarding wireline reel of the winding with portion 20 as the 1st axle A1.In addition, in master The level of display surface 11 in body portion 10 and towards in the state of ceiling side (side in opposite direction with Action of Gravity Field), will make The rotary shaft that the side of the two ends connection of the main part 10 in connect band portion 20 is upwardly extended is as the 2nd axle A2.In addition, as shown in figure 4, Main part 10 the level of display surface 11 and towards in the state of ceiling side (side in opposite direction with Action of Gravity Field), will The direction parallel with the direction that the 1st axle A1 extends regard the direction parallel with the direction that the 2nd axle A2 extends as Y as X-direction Direction of principal axis.In addition, main part 10 the level of display surface 11 and towards ceiling side (in opposite direction one with Action of Gravity Field Side) in the state of, it regard vertical (direction vertical with display surface 11) as Z-direction.In addition, X-direction, Y direction And Z-direction is the coordinate system unrelated with the posture of wearable terminal 100.

In this case, the direction for the arrow that the direction of display surface 11 is e.g. represented with D1 (is designated as " display surface 11 below Towards D1 ".).In addition, the definition towards D1 of display surface 11 is an example, as long as display surface 11 can be regard as base Standard is come the predetermined direction that determines, however it is not limited to above-mentioned example, can also be defined with other directions.In addition, test section 111 pairs of wearable terminals 100 it is display part 113, using the 1st axle A1 be used as on the 1st direction of rotation of rotary shaft the 1st rotation Angle is detected.In addition, test section 111 can to display part 113, regarding the 2nd axle A2 different from the 1st axle A1 as rotation The 2nd anglec of rotation on 2nd direction of rotation of rotating shaft is detected.In addition, test section 111 can to will with the 1st axle A1 with And the 2nd different the 3rd axle A3 of axle A2 detected as the 3rd anglec of rotation on the 3rd direction of rotation of rotary shaft.Namely Say, test section 111 is realized by 3 axis angular rate sensors 106.In the present embodiment, the 1st axle A1, the 2nd axle A2 and, the 3rd Axle A3 is the axle parallel with mutually orthogonal direction respectively.In addition, test section 111 is realized by 3 axis angular rate sensors 106, but It is not limited to.Test section 111 can both realize by acceleration transducer 105, can also be by the axle of acceleration transducer 105 and 3 The combination of angular-rate sensor 106 is realized.

Here, returning to the explanation of Fig. 3 test section 111, the display using Fig. 5 and Fig. 6 to being detected by test section 111 The situation towards D1 in the 1st angular range, theta 1 in face 11 is specifically described.

Fig. 5 is that situation about being in for the direction to display surface in the 1st angular range and from the direction of the 1st axle is carried out The figure of explanation.Fig. 6 is to be in the 1st angular range and the situation progress from the direction of the 2nd axle for the direction to display surface The figure of explanation.

First, as shown in figs.5 and 6, the 1st anglec of rotation and the 2nd anglec of rotation are all the rotations away from the 1st benchmark posture Angle, the 1st anglec of rotation and the 2nd anglec of rotation are all the display surfaces 11 by the display 107 of composition display part 113 relative to ground Face level and state towards ceiling (opposite with ground) side is used as the 1st benchmark posture.That is, the 1st anglec of rotation is Refer to following angle, i.e. by the direction of display surface 11 and Action of Gravity Field generally perpendicularly intersect and display surface 11 towards with again In the case that the state of the opposite side in side (i.e. upside) of power effect is set to 0 degree (the 1st benchmark posture), expression display surface 11 Have rotated how many using the 1st axle A1 as pivot from 0 degree.Equally, the 2nd anglec of rotation refers to following angle, i.e. expression is in The display surface 11 of the state of 1st benchmark posture have rotated how many using the 2nd axle A2 as pivot from 0 degree.In addition, in the 1st benchmark In posture, the direction of the direction of display surface 11 is referred to as the 1st reference direction.

As shown in figure 5, as on the 1st direction of rotation of rotary shaft, the 1st axle A1 is being set into 0 degree by the 1st benchmark posture In the case of, the 1st angular range, theta 1 is, for example, -15 degree less than 15 degree of angular range.And then, as shown in fig. 6, by 1st benchmark posture is set in the case of 0 degree by 2 axle A2 as on the 2nd direction of rotation of rotary shaft, and the 1st angular range, theta 1 is for example It is -15 degree less than 15 degree of angular range.That is, the 1st angular range, theta 1 regard predetermined direction D10 as base Standard, based on using at least two axles (the 1st axle A1 and the 2nd axle A2) in three dimensions as pivot, make towards The anglec of rotation when display surface 11 of 1st reference direction rotates.As the higher limit and lower limit of the 1st angular range, theta 1, use Value set in advance.That is, the 1st angular range, theta 1 is the scope of the 1st fixed predetermined angular.In addition, the 1st predetermined angular It is, for example, 30 degree on the 1st direction of rotation, and is, for example, 30 degree on the 2nd direction of rotation.Therefore, the 1st angular range, theta 1 turns into, On the basis of predetermined direction (upward direction in vertical) D10, and by the 1st axle A1 and the 2nd axle A2 intersection point are made For the angular range of the definition space of the side cone on summit.In addition, the 1st angular range, theta 1 is not limited to be determined by the space of side's cone The angular range of justice, or by the angular range of the definition space of inverted cone.

No matter 1st angular range, theta 1 is set in the 1st direction of rotation or on the 2nd direction of rotation, from the 1st benchmark appearance Gesture (0 degree) is equal to the angular range of positive side and from the angular range of the 1st benchmark posture (0 degree) to negative sense side, but Difference is can be set as, the angular range without negative sense side can also be set as.It is being not set to the equal feelings of angular range , it is necessary to which the direction to direction of rotation sets positive direction under condition.

For example, in figure 6, being filled on the left finesse of user in the way of display surface 11 is towards dorsal side and having worn wearable end In the case of end 100, forethiga 30 will be made to making side of the display surface 11 towards the outside of the body of user using elbow as fulcrum It is set to just to the direction of rotation of rotation.In addition, Fig. 6 represents that the left finesse dress in user has worn the example of wearable terminal 100, but It is, in the case where the right finesse dress of user has worn wearable terminal 100, to be changed into the angular range inverted in the X-axis direction. That is, it is in figure 6, left-handed to switch to positive direction of rotation, but in the case where right finesse dress has worn wearable terminal 100, Right rotation turns into positive direction of rotation.In addition, wearable terminal 100, which is wearing on left finesse, is still wearing on right finesse, Yong Huke Wearable terminal 100 is set after, in this case, control unit 112 can judge rotation according to set information Turn the positive and negative of direction.Furthermore it is possible to premised on being wearing on left finesse, preset and left-handed switch to positive direction of rotation.

Here, in the case that dress has worn wearable terminal 100 on left finesse, in figure, hand is located at wearable terminal 100 Right side, arm be located at wearable terminal 100 left side.Thus, in the case where left finesse dress has worn wearable terminal 100, By making arm be changed into wrist side comparing the state that elbow is lifted upwards from approximate horizontal state, so as to make to wear Terminal 100 is worn to rotate to positive direction.

In addition, for example, in figure 6, in the front of the body by the way that forethiga 30 to be located to user along left and right directions, from And in the case of obtaining the posture of display surface 11 for confirming wearable terminal 100, will be in order that display surface 11 be used to close The side (Fig. 6 Y direction minus side) of the body at family tilts and reversed direction of rotation (the rotation side of Fig. 5 anticlockwise of arm To) be set to just.In addition, on the 1st direction of rotation, the situation that wearable terminal 100 either is wearing on into left finesse is still filled The situation in right finesse is worn, the direction of rotation of Fig. 5 anticlockwise is all positive direction of rotation.

Display of the control unit 112 to display part 113 is controlled.Specifically, control unit 112 carries out the 1st judgement, and makes Display part 113 is set to turn into the 1st display control of sleep state or dispaly state with the 1st result judged.In the 1st judges, control Portion 112 processed judges whether the display surface 11 of display part 113 is in the 1st angle towards D1 according to the testing result of test section 111 In range Theta 1.In the 1st display control, the 1st judge result represent display surface 11 towards D1 be in the 1st angular range, theta 1 In the case of outer, control unit 112 makes display part 113 be in sleep state, and the direction of display surface 11 is represented in the 1st result judged In the case that D1 is in the 1st angular range, theta 1, display part 113 is set to be in dispaly state.

In addition, control unit 112 carries out the decision of the 2nd angular range, the 2nd judgement, the 3rd judgement and the 2nd display control, 2nd display control carries out the dormant recovery from display part 113.Here, the 2nd angular range is used in from the 2nd Before the scheduled time untill current the 2nd during detected by test section 111 multiple display surfaces 11 towards in D1 at least Direction corresponding to the direction of one determination as benchmark (also referred to as the 2nd reference direction) angular range.2nd angular range is Based on using at least two axles (the 1st axle A1 and the 2nd axle A2) in three dimensions as pivot, making towards the 2nd The anglec of rotation when display surface 11 of reference direction rotates is come the angular range that defines.For example, the angle towards D1 of display surface 11 Degree scope represents that the 1st anglec of rotation is to make direction using the 1st axle A1 as pivot with the 1st anglec of rotation and the 2nd anglec of rotation The anglec of rotation when display surface 11 of 2nd reference direction rotates, the 2nd anglec of rotation is to make court using the 2nd axle A2 as pivot Anglec of rotation when being rotated to the display surface 11 of the 2nd reference direction.In addition, using multiple display surfaces 11 towards in D1 at least One and the direction that determines both can be some or multiple displays in the direction towards D1 of multiple display surfaces 11 The average direction towards D1 in face 11.In addition, the detailed content on the 2nd angular range, is described below.

In the 2nd judges, control unit 112 is judged before the 1st scheduled time according to the result detected by test section 111 Untill current the 1st during multiple display surfaces 11 for detecting the 2nd determined angular range whether is rested on towards D1 It is interior.In the 3rd judges, represent that the direction of the multiple display surfaces 11 detected during the 1st rests on the in the 2nd result judged In the case of in 2 angular ranges, control unit 112 judges whether the direction of the display surface 11 newly detected by test section 111 departs from 2nd angular range.

In addition, in the 3rd judges, can newly be detected with this based on the direction in the preceding display surface 11 once detected The direction of display surface 11 its difference, the direction of the direction change of detection display surface 11.Specifically, this new detection can be detected To display surface 11 direction of the direction relative to the preceding display surface 11 once detected, using the 1st axle A1 as pivot, Xiang Shun Which of clockwise or counter clockwise direction direction change.It is also possible to detect the court of this display surface 11 newly detected To the direction relative to the preceding display surface 11 once detected, using the 2nd axle A2 as pivot, clockwise or counterclockwise Which of direction direction change.In the 2nd display control, the display surface 11 newly detected is represented in the 3rd result judged Towards D1 depart from the 2nd angular range in the case of, even if the display surface 11 newly detected towards D1 be in the 1st angular range, theta 1 In the case of outer, display part 113 is also set to switch from sleep state to dispaly state.

In addition, control unit 112 can use value set in advance as using the 1st axle A1 as the anglec of rotation of pivot Higher limit and lower limit and using the 2nd axle A2 as the higher limit and lower limit of the anglec of rotation of pivot, determine the 2nd angle Scope, the 2nd angular range is by being averaged towards D1 of the multiple display surfaces 11 detected during the 2nd by test section 111 Direction as center (that is, the 2nd reference direction) angular range.That is, the 2nd reference direction of direction can will be used Display surface 11 and above-mentioned value set in advance and the angular range of the 2nd predetermined angular of fixation that determines is determined as the 2nd angle Scope.

In addition, whether being changed to as predetermined rotation towards D1 for display surface 11 judged in judging the 3rd for control unit 112 Outside 2nd angular range of the positive direction of rotation side in direction.Predetermined direction of rotation (or positive direction of rotation) refers to, with the 1st One in axle A1 and the 2nd axle A2 is the direction of rotation of pivot, and is clockwise and in counter clockwise direction One direction.Also, control unit 112 be determined as in can judging the 3rd display surface 11 towards D1 to positive direction of rotation side In the case of change and the 2nd angular range of disengaging, display part 113 is set to recover from sleep state.

In addition, control unit 112 can make information on display part 113 in the 1st display control and the 2nd display control Display mode is different.That is, control unit 112 can make in the 1st display control and the 2nd display control display part 113 from Sleep state display mode shown when recovering is different.

Specifically, control unit 112 can make the size of the image shown in the 2nd display control or the font of word Size is more than the size of the size of the image shown in the 1st display control or the font of word.For example, control unit 112 can be with The figure of the picture of application program for making to show when display part 113 recovers from sleep state in the 2nd display control, photo, The size of the size of the image of illustration etc. or the font of word, it is more extensive from sleep state in display part 113 than in the 1st display control The size of the size of the image shown when multiple or the font of word, big 10% display.

In addition, control unit 112 can also be to backlight in the 1st display control and the 2nd display control illumination or liquid crystal enter Row controls to make display mode different.For example, control unit 112 can make the photograph of the backlight of the display part 113 in the 2nd display control Degree is higher than the illumination of the backlight of the display part 113 in the 1st display control.In addition, control unit 112 can make in the 2nd display control Display part 113 display contrast be more than the 1st display control in display part display contrast.

In addition, control unit 112 can make next to be converted to sleep state using the 1st display control and the 2nd display control Time it is different.

For example, control unit 112 is from being made display part 113 at the time of after sleep state recovery in the 1st display control After the 1st display time, it is sleep state to make display part 113, and control unit 112 makes display from the 2nd display control Portion 113 from sleep state recovery after at the time of after the 2nd display time longer than the 1st display time, make display part 113 For sleep state.For example, control unit 112 is from being made display part 113 at the time of sleep state recovers in the 1st display control After 1 minute, display part 113 is set to be in sleep state, control unit 112 makes display part 113 from the 2nd display control At the time of sleep state recovers after 2 minutes, display part 113 is set to be in sleep state.

In addition, for example, control unit 112 can make display part 113 return to dormant situation in the 2nd display control Under, according to the application program for making display part 113 from the sleep state recover and showing, make to be subsequently used for being converted to sleep state The display time it is different.For example, in this case, control unit 112 makes mail, courier (messenger), news application etc. When the display for carrying out the application program of the display comprising word more than predetermined word number (such as 20 words) recovers, during with making When the display of the application program of display of the progress comprising less than predetermined alpha-numeric word of clock or reproducing music device etc. recovers Compare, make the time untill sleep state is converted to elongated.

In addition, control unit 112 is realized by CPU101 and the grade of main storage 102.

Display part 113 makes presentation of information in viewing area.Display part 113 is realized by display 107.

[1-2. actions]

The action of wearable terminal 100 as constructed as above is illustrated using Fig. 7~Figure 15.

First, the 1st display control of wearable terminal 100 is illustrated using Fig. 7 and Fig. 8.

Fig. 7 is the flow chart for illustrating an example of the 1st display control of the wearable terminal of embodiment 1.Fig. 8 It is the pass between the posture for representing the display and wearable terminal shown in the 1st display control of the control unit of embodiment 1 The figure of system.In addition, the posture of the wearable terminal shown in Fig. 8 is along figure during the 1st axle A1 direction observation, and show Posture on 1st direction of rotation, and due to also carrying out same processing on the 2nd direction of rotation, so omitting along the 2nd axle A2 Direction observation when diagram.

In addition, Fig. 8 (a) is the figure for the situation about being in towards D1 in the 1st angular range, theta 1 for representing display surface 11.Separately Outside, Fig. 8 (a-1) is the figure for the posture for representing wearable terminal in this case.In addition, Fig. 8 (a-2) is represented in situation Under display part 113 show display picture figure.Fig. 8 (b) be represent display surface 11 towards D1 be in the 1st angular range The figure of situation outside θ 1.In addition, Fig. 8 (b-1) is the figure for the posture for representing wearable terminal in this case.In addition, Fig. 8 (b-2) be represent in this case display part 113 show display picture figure.

For example, whenever test section 111 is detected to the direction of display surface 11, with regard to carrying out the flow chart shown in Fig. 7.

As shown in fig. 7, in the 1st display control, first, control unit 112 was judged by working as that test section 111 is detected The 1st judgement (S101) whether being in towards D1 in the 1st angular range, theta 1 of preceding display surface 11.The court of current display surface 11 Refer to D1, by it is in direction of the test section 111 in multiple display surfaces 11 that different timings is detected, detect at the time of with The direction of corresponding display surface 11 at the time of newest.

Control unit 112 judges being in towards D1 for the current display surface 11 detected by test section 111 in judging the 1st In situation (being "Yes" in S101) in 1st angular range, theta 1, make to be shown in display part with now corresponding appropriate display On 113 (S102).Specifically, control unit 112 is judging being in towards D1 in the 1st angular range, theta 1 for current display surface 11 In the case of, such as shown in Fig. 8 (a-2), for example, display 201 is shown on the viewing area 12 of display part 113.

Here, display 201 is the display of predetermined application program for illustrating the ability to be performed by the wearable terminal 100. In present embodiment, predetermined application program is, for example, clock (simulation clock and the numeral for being used to show current time At least one in clock) figure application program.

On the other hand, control unit 112 is determined as the current display surface 11 detected by test section 111 in judging the 1st In the situation (being "No" in S101) of (depart from the 1st angular range, theta 1), closed not in the 1st angular range, theta 1 towards D1 The display of display part 113, makes display part 113 sleep (S103).Thus, as shown in Fig. 8 (b-2), control unit 112 makes display part 113 what all no display.

So, whether control unit 112 is in the 1st jiao according to current display surface 11 as the 1st display control towards D1 Range Theta 1 is spent, whether switching is shown display part 113.In the 1st display control, what it is according to display surface 11 is towards D1 It is no to be in the 1st angular range, theta 1 to judge whether user observes the display surface 11 of wearable terminal 100, it is in display surface 11 In the case of in 1st angular range, theta 1, it is determined as that user observes display surface 11, the 1st is not in towards D1 in display surface 11 In the case of in angular range, theta 1, it is determined as that user does not observe display surface 11.So, display surface is not observed in user In the case of 11, by making display part 113 sleep, consumption electric power can be reduced.

In addition, the judgement of display surface 11 whether is observed on user, not only can the display based on wearable terminal 100 Carrying out towards D1 for face 11, is also based on combining the detection of the action for the forethiga 30 that dress has worn wearable terminal 100 As a result carry out.For example, following control can be carried out as the 1st display control, i.e. in current display surface 11 towards D1 In the case of detecting that forethiga 30 is upborne in the 1st angular range, theta 1 and by acceleration transducer 105, it is judged to using Display surface 11 is observed at family, recovers display part 113.

In addition, in the state of the startup of wearable terminal 100, the 1st display control is carried out all the time.That is, the 1st is aobvious Show that control is carried out parallel with the 2nd display control described below.

Then, the 2nd display control of wearable terminal 100 is illustrated using Fig. 9~Figure 15.

Fig. 9 is the flow chart for illustrating an example of the 2nd display control of the wearable terminal of embodiment 1.

As shown in figure 9, first, control unit 112 judges whether display part 113 is in sleep state (S201).

Control unit 112 is being determined as that display part 113 is in dormant situation (in S201 be "Yes"), determines the 2 angular ranges (S202).On the detailed content of the decision processing of the 2nd angular range, it is described below.

Here, the decision processing of the 2nd angular range using Figure 10~Figure 14 to being carried out in control unit 112 is illustrated.

Figure 10 is the flow chart for illustrating an example of the decision processing of the 2nd angular range of embodiment 1.Figure 11 It is the figure for representing to pass through over time an example of the direction of the display surface detected untill current by test section 111.Separately Outside, the testing result for having the 1st anglec of rotation detected by test section 111 is only illustrated in fig. 11.Figure 12 is to represent embodiment party An example of the direction of the display surface of the display part of the wearable terminal of formula 1 towards the situation in the direction outside the 1st angular range Figure.In addition, being also shown for the situation after being determined on the 2nd angular range in fig. 12.Figure 13 is for display surface Direction is in the figure that in the 2nd angular range and the situation from the direction of the 1st axle is illustrated.Figure 14 is used for display surface Direction be in the 2nd angular range and the figure that illustrates of the situation from the direction of the 2nd axle.

As shown in Figure 10, in the decision processing of the 2nd angular range, first, control unit 112 is according in the 2nd period Δ t2 The direction towards D1 of the multiple display surfaces 11 detected by test section 111, calculates average direction (S301).Specifically, As shown in figure 11, detected respectively in the 1st anglec of rotation and the 2nd anglec of rotation by test section 111 in the predetermined sampling period Display surface 11 towards D1.In addition, the testing result of the 1st anglec of rotation is only shown in fig. 11, but for the 2nd anglec of rotation Same detection.In addition, the sampling period is shorter, in the 2nd period Δ t2, display surface is detected in more timings by test section 111 11 towards D1.

The display surface 11 that is detected by test section 111 towards D1 with detection at the time of the testing result that is associated for example It is stored in memory 103.Test section 111 detect at predetermined intervals display surface 11 towards D1 in the case of, it is multiple Testing result is stored in memory 103.Specifically, the plurality of testing result is stored in memory 103.Thus, control unit 112, using the multiple testing results detected in the 2nd period Δ t2 stored in memory 103, calculate average towards D20. For example, control unit 112 by using respective 1st anglec of rotation of multiple testing results in the 2nd period Δ t2 aggregate-value divided by The quantity of the testing result, calculates the average value of the 1st anglec of rotation, and with respective 2nd anglec of rotation of multiple testing results The quantity of aggregate-value divided by the testing result, calculates the average value of the 2nd anglec of rotation.So, control unit 112 is by calculating the 1st The average value of the average value of the anglec of rotation and the 2nd anglec of rotation, is calculated and is rotated with the average value of the 1st anglec of rotation and the 2nd It is average towards D20 that the average value of angle is represented.

Here, as shown in figure 11, the 2nd period Δ t2 is from the 1st moment t1 for shifting to an earlier date for the 2nd scheduled time than current time tn During between current time tn.In addition, in memory 103 only stores the testing result detected by test section 111 The testing result obtained during the scheduled time has been reviewed from current time.That is, need not deposit memory 103 All testing results of storage.

Then, control unit 112 regard the average direction of the direction of the display surface 11 calculated as benchmark (the 2nd benchmark side To), determine the 2nd angular range, theta 2 (S302) defined using value set in advance (or fixed angle).Specifically, control Portion 112 will be determined as the 2nd angular range, theta 2 by the angular range of average the 2nd predetermined angular towards centered on D20.Here, 2nd predetermined angular is the angle of fixation set in advance, for example, 10 degree.In addition, as long as the 2nd angular range, theta 2 is comprising average The angular range towards D20, it may not be necessary to be by the angle model of average the 2nd predetermined angular towards centered on D20 Enclose.In addition, the 2nd predetermined angular is exemplified with the angle smaller than the 1st predetermined angular, but both can be equal with the 1st predetermined angular The angle of size or the angle bigger than the 1st predetermined angular.

The decision processing of the 2nd angular range, theta 2 in 2nd display control is for example as shown in figure 12 in wearable terminal 100 Current display surface 11 towards D1 towards the 1st angular range, theta 1 outside direction in the case of carry out.Figure 12, which is assumed, for example to exist The state that the hand for the side for having worn wearable terminal 100 is held on to a strap is filled in electric car or bus etc..In addition, the 2nd display control System can not only be applied to the state that arm stretches upward as shown in figure 12, and can be applied to catch bicycle etc. Handle and the state that makes arm stretch forwards, can also apply to the shape in order to catch luggage and make arm stretch downwards State.

As shown in Figure 13 and Figure 14, no matter the 2nd angular range, theta 2 is in the 1st direction of rotation or in the 2nd direction of rotation On, all it is using towards the state of the average display surface 11 towards D20 as the 2nd benchmark posture, and using the 2nd benchmark posture in Respective 10 degree of angular range of the heart.As shown in figure 13, by the 2nd benchmark on using the 1st axle A1 as the 1st direction of rotation of rotary shaft Posture is set in the case of 0 degree, and the 2nd angular range, theta 2 is, for example, -5 degree less than 5 degree of angular range.And then, such as scheme Shown in 14, on using the 2nd axle A2 as the 2nd direction of rotation of rotary shaft, the 2nd benchmark posture is set in the case of 0 degree, the 2nd jiao For example, -5 degree of range Theta 2 are spent less than 5 degree of angular range.In addition, the 2nd predetermined angular on the 1st direction of rotation for example For 10 degree, and it is, for example, 10 degree on the 2nd direction of rotation.Therefore, the 2nd angular range, theta 2 turns into, with the average court calculated It is the 2nd reference direction to D20, by regarding the 1st axle A1 and the 2nd axle A2 intersection point as the angle of the definition space of the side cone on summit Spend scope.In addition, the 2nd angular range, theta 2 is not limited to by the angular range of the definition space of side's cone, or by rounding The angular range of the definition space of cone.So, the 2nd angular range, theta 2 is different from the 1st fixed angular range, theta 1, is according to display The angular range dynamically determined towards D1 towards which direction in face 11.

Fig. 9 is returned to, when determining 2 angular range, theta 2 in step S202, control unit 112 is carried out during the 1st The 2nd judgement that the 2nd angular range, theta 2 whether is rested on towards D1 of the display surface 11 detected in Δ t1 in different timings (S203).Here, as shown in figure 11, the 1st period Δ t1 is from the 2nd moment t2 for shifting to an earlier date for the 1st scheduled time than current time tn During untill current time tn.In addition, in fig. 11, during the 1st period Δ t1 is longer than the 2nd period Δ t2, also may be used With length it is equal with the 2nd period Δ t2 during or during length is shorter than the 2nd period Δ t2.

Control unit 112 is determined as existing towards D1 for the multiple display surfaces 11 detected in the 1st period Δ t1 in judging the 2nd In the situation (being "Yes" in S203) that the 2nd angular range, theta 2 is rested in 1st period Δ t1, the direction of display surface 11 is then carried out The 3rd judgement (S204) whether D1 is changed to outside the 2nd angular range, theta 2.Here, resting on the 2nd angle in the 1st period Δ t1 Range Theta 2 refers to, the multiple display surfaces 11 detected in the 1st period Δ t1 towards D1 all in the 2nd angular range, theta 2.

In addition, in the case of more than the quantity towards D1 of the display surface 11 detected in the 1st period Δ t1, if the 1st Multiple display surfaces 11 of detection towards the display surface 11 in the 2nd angular range, theta 2 in D1 towards D1 in period Δ t1 Quantity exceed a reference value, then can also be determined as the multiple display surfaces 11 detected in the 1st period Δ t1 towards D1 the 1st The 2nd angular range, theta 2 is rested in period Δ t1.

On the other hand, control unit 112 the 2nd judge in be determined as display surface 11 towards D1 in the 1st period Δ t1 not The situation (being "Yes" in S203) of the 2nd angular range, theta 2 is rested on, is returned at the step S202 decision of the 2nd angular range, theta 2 Reason.

What control unit 112 judged the display surface 11 newly detected by test section 111 in judging the 3rd changes to the 2nd towards D11 In the situation (being "Yes" in S204) of angular range, theta 2 outer (that is, departing from the 2nd angular range, theta 2), by making display part 113 make display part 113 be shown (S205) from sleep state recovery.On the other hand, control unit 112 is sentenced in judging the 3rd Be set to display surface 11 does not change to the 2nd angular range, theta 2 outer (that is, in the 2nd angular range, theta 2) towards D11 In situation (being "No" in S204), step S203 processing is returned to.

Figure 15 is display and the wearable terminal for representing to show in the 2nd display control of the control unit of embodiment 1 The figure of relation between posture.In addition, the posture of shown wearable terminal is the direction observation along the 1st axle A1 in fig .15 When figure, the posture on the 1st direction of rotation is shown, but be due to also to carry out same processing on the 2nd direction of rotation, so Omit along diagram during the 2nd axle A2 direction observation.

In addition, Figure 15 (a) is to represent before the 2nd angular range, theta 2 is determined and display surface 11 towards D1 is in the 1st jiao The figure of situation about spending outside range Theta 1.In addition, Figure 15 (a-1) is the figure for the posture for representing wearable terminal in this case.Separately Outside, Figure 15 (a-2) be represent in this case display part 113 show display picture figure.Figure 15 (b) is to represent aobvious Show the figure of the situation about being in towards D1 in the 2nd angular range, theta 2 in face 11.In addition, Figure 15 (b-1) is to represent in this case Wearable terminal posture figure.In addition, Figure 15 (b-2) is the display for representing to show in display part 113 in this case The figure of picture.In addition, Figure 15 (c) is the figure towards D1 situations about changing to outside the 2nd angular range, theta 2 for representing display surface 11. In addition, Figure 15 (c-1) is the figure for the posture for representing wearable terminal in this case.In addition, Figure 15 (c-2) is to represent The figure of the display picture shown in this case in display part 113.

As shown in Figure 15 (a) and (b), during untill step S202 terminates, control unit 112 is to the 2nd The decision processing of angular range, theta 2 terminate untill during, making display part 113, what does not show.As shown in Figure 15 (b), certainly Fixed 2nd angular range, theta 2, and keep the state in the 2nd angular range, theta 2 to have passed through the 1st towards D1 in display surface 11 After the scheduled time (being "Yes" in S203), the 2nd angle is changed to towards D1 be determined as Figure 15 (c) display surface 11 In situation (being "Yes" in S204) outside range Theta 2, for example, display 201a is set to be shown in display part 113.

In addition, made by the 2nd display control display part 113 from sleep state recover shown in the case of, control The direction for the gravity that portion 112 can be detected according to acceleration transducer 105, in the way of turning into downside by the side of Action of Gravity Field Determine the display 201a direction shown in viewing area 12.In addition, making display part 113 from sleep by the 1st display control State is recovered in the case of being shown, the direction with gravity is unrelated, will make the connection of the two ends with portion of connection main part 10 Direction is always shown display part 113 as upper and lower.

In Figure 15 (c-2), due to the side that Z-direction minus side is Action of Gravity Field, so with the Z axis of viewing area 12 The mode that direction minus side is in downside is shown display 201a.That is, being led in the direction of Action of Gravity Field with making to be connected In the case that the direction of two ends with portion 20 connection in body portion 10 is vertical, the upper and lower of display can be turned into the vertical direction To mode shown display 201a.Thus, due to that can be shown display 201a according to the direction of Action of Gravity Field, So can be shown on the direction that user easily observes display 201a.

Then, the sleep control of wearable terminal 100 is illustrated using Figure 16.Sleep control refers to, from aobvious In the case of showing that portion 113 shown that passing through the scheduled time does not accept any operation yet, display part 113 is set to be in sleep state Control.

Figure 16 is the flow chart for illustrating an example of the sleep control of the wearable terminal of embodiment 1.

As shown in figure 16, first, control unit 112 determines whether to have passed through the 1st from making display part 113 be in dispaly state The display time (S401).

Control unit 112 is being judged to have passed through the situation of the 1st display time from display part 113 is in dispaly state Under (being "Yes" in S401), determine whether and dispaly state (S402) is in by the recovery of the 2nd display control.Namely Say, control unit 112 judges whether the current dispaly state of display part 113 is reality by the recovery using the 2nd display control It is existing.On the other hand, control unit 112 is in the feelings being determined as from making display part 113 be in dispaly state without the 1st display time Under condition (being "No" in S401), step S401 is repeated.That is, control unit 112 carry out it is standby, until from making at display part 113 In dispaly state by the 1st display time untill.

Control unit 112 is being determined as that the situation in dispaly state is (in S402 by the switching using the 2nd display control For "Yes") under, when determining whether to have passed through 2nd display longer than the 1st display time from display part 113 is in dispaly state Between (S403).

On the other hand, control unit 112 is being judged to not being in dispaly state by the switching using the 2nd display control In situation (being "No" in S402), display part 113 is set to be in sleep state.In this case, control unit 112 is determined as by profit Dispaly state is in the switching of the 1st display control, therefore, display part 113 is in sleep when showing the time by the 1st State.

In addition, control unit 112 is being judged to from making display part 113 be in dispaly state have passed through for the 2nd display time In situation (being "Yes" in S403), display part 113 is also set to be in sleep state (S404).

[1-5. shows example]

Then, illustrate make display part 113 from sleep state recover and carry out in the case of showing by the 2nd display control The display example of display.

In fig .15, the direction for the gravity that control unit 112 is detected according to acceleration transducer 105, with Action of Gravity Field The mode that side is in downside determines the direction for the display 201a for showing viewing area 12, but is not limited to this.For example, as schemed Shown in 17A, control unit 112 can make the display 201b of trapezoidal type be shown in viewing area 12, and the display 201b of the trapezoidal type makes Shorten and make the direction D3 of the sight away from user side elongated close to the direction D3 of the sight of user side.In addition, with The direction D3 of the sight at family can be wearing on the information and wearable terminal 100 of which arm according to wearable terminal 100 is represented Posture speculate.In addition, as seen in this fig. 17b, control unit 112 can make the size or word of the image in the 2nd display control Font size, more than the size or the font size of word of the image in the 1st display control.

In addition, in Figure 17 A and Figure 17 B example, it is same with embodiment 1, according to the direction of gravity, made with gravity The mode that side is in downside makes display 201b, 201c be shown in viewing area 12, but can not also be with Action of Gravity Field Side be in the mode of downside and make to be shown in viewing area 12 and shown, will can also make to be connected with the main part with portion 20 The direction of 10 two ends connection makes to be shown in viewing area 12 and shown as above-below direction.

In addition, though not illustrating, but as described above, display part 113 is made from sleep state by the 2nd display control In the case of recovering and being shown, compared with the situation of the 1st display control, the illumination of the backlight of display part 113 can be made Uprise, the contrast of display part 113 can also be made to become big.

[1-3. effects etc.]

As previously discussed, according to the wearable terminal 100 of present embodiment, wearable terminal 100 has been worn even in dress In the state of the action of wrist is restricted, display part 113 also can be easily set to recover from sleep state.Therefore, even if user In such a state also can be easily from the confirmation of wearable terminal 100.

In addition, control unit 112 can make next to be converted to sleep state using the 1st display control and the 2nd display control Untill time it is different.For example, in the case where relieving sleep by the 2nd display control, can be estimated as being in following shape State, i.e. be only capable of acting in the 2nd angular range, theta 2 in the 2nd time Δ t2, the action of wrist is restricted.Specifically, logical The 2nd display control is crossed from the case that sleep state recovers, can be estimated as in the suspension ring for catching electric car or bus State, hold bicycle handle state, the state etc. of catching luggage.Therefore, the state being restricted in the action of wrist Under, it is estimated as user and is in not making display part 113 is moved to the position oneself easily observed as the 1st angular range, theta 1 State.I.e. it is capable to which it is the state that user is difficult to observe the display surface 11 of display part 113 to be estimated as such state. User is difficult in the state of the display surface 11 of observation display part 113 from during sleep recovery, is estimated as reading and is shown in display surface 11 Information it is time consuming.In above-mentioned sleep control, it is estimated as in the state for being difficult to observe display surface 11 and shows using the 2nd Show the situation that control is shown from sleep state recovery, with showing in the easy state for observing display surface 11 and using the 1st Show that the situation that control is recovered to show from sleep state is compared, the display untill sleep state is next at can be made Time is elongated, is enough to confirm the time in the information of the display of display surface 11 thus, it is possible to obtain.

[variation 1 of 1-4. embodiments 1]

Then, the variation 1 to embodiment 1 is illustrated.

In above-mentioned embodiment 1, in the decision processing of the 2nd angular range, control unit 112 makes a reservation for the fixed the 2nd The angular range of angle is determined as the 2nd angular range, theta 2, and the 2nd angular range, theta 2 is will be in the 2nd period Δ t2 by test section 111 Multiple display surfaces 11 of detection towards the average towards angular ranges of the D20 as center of D1, but be not limited to this.Example Such as, multiple display surfaces 11 that control unit 112 is detected in the 2nd period Δ t2 by test section 111 it is periodically anti-towards D1 In the case of multiple change, the angular range of the amplitude of the change can be determined as the 2nd angular range, theta 2.The angle of the amplitude of change Degree scope refers to, using multiple display surfaces 11 that different timings is detected towards in D1 using the 1st axle A1 as pivot The anglec of rotation maximum and minimum value and using the 2nd axle A2 as the maximum and minimum value of the anglec of rotation of pivot The angular range of definition.That is, the decision processing for the 2nd angular range, theta 2 that above-mentioned embodiment illustrates can be substituted in, And carry out the decision processing of the 2nd angular range, theta 2 of variation 1.

Figure 18 is the stream for illustrating an example of the decision processing of the 2nd angular range of the variation 1 of embodiment 1 Cheng Tu.Figure 19 is an example for representing to pass through over time the direction of the display surface detected untill current by test section Figure.In addition, Figure 19 is the result detected same with Figure 11, therefore omit detailed description.

As shown in figure 18, in the decision processing of the 2nd angular range, theta 2 of variation 1, first, control unit 112 is sentenced Whether periodically changing repeatedly towards D1 for multiple display surfaces 11 that the 2nd period Δ t2 is detected by test section 111 be scheduled on 4th judges (S311).Specifically, control unit 112 by judge the 2nd period Δ t2 by test section 111 detect it is multiple aobvious Show the increase and decrease that angle whether is repeated with predetermined amplitude towards D1 in face 11, determine whether periodically repeatedly to change.

Control unit 112 represents the multiple displays detected in the 2nd period Δ t2 by test section 111 in the 4th result judged In the situation (being "Yes" in S311) periodically changed repeatedly towards D1 in face 11, the angular range of the amplitude of change is determined For the 2nd angular range, theta 2 (S312).For example, as shown in figure 19, control unit 112 by the 2nd period Δ t2 detect it is multiple aobvious Show that minimum value θ 31 to the maximum θ 32 towards D1 in face 11 angular range are determined as the 2nd angular range, theta 2.

(embodiment 2)

Hereinafter, embodiment 2 is illustrated using Figure 20~Figure 22.

[2-1. compositions]

Figure 20 is the block diagram of the hardware configuration for the wearable terminal for representing embodiment 2.Figure 21 represents embodiment 2 The block diagram of the functional structure of wearable terminal.

The wearable terminal 100a of embodiment 2 compared with the hardware configuration of the wearable terminal 100 of embodiment 1, Also there is vibrating elements 108.In addition, wearable terminal 100a can have loudspeaker 109 and LED (Light Emitting Diode：Light emitting diode) 110.

Vibrating elements 108 is the vibration actuator for the opening and closing that can be vibrated according to input signal.

Loudspeaker 109 exports sound.

LED110 is the light-emitting component that can be lighted.

In addition, wearable terminal 100a also has compared with the functional structure of the wearable terminal 100 of embodiment 1 Notification unit 114.In addition, wearable terminal 100a can also have communication unit 115.In addition, wearable terminal 100a is in control unit 112a's is functionally also different.

Control unit 112a is represented in the 1st period Δ t1 multiple display surfaces 11 detected towards D1 in the 2nd result judged In the case of resting in the 2nd angular range, theta 2, the situation is informed the user by controlling notification unit 114.

The notice that notification unit 114 to user with control unit 112a control be consistent.

Specifically, notification unit 114 is by making wearable terminal 100a vibrations be notified to user.In the situation Under, notification unit 114 is realized by vibrating elements 108.

In addition, notification unit 114 is notified by reproducing sound to user.In this case, notification unit 114 is by raising one's voice Device 109 is realized.

In addition, notification unit 114 is notified by lighting to user.In this case, notification unit 114 is real by LED110 It is existing.

In addition, notification unit 11 can be carried out via the communication unit 115 communicated with outside terminal to outside terminal Notify.In this case, notification unit 114 is realized by CPU and the grade of main storage 102.

In addition, communication unit 115 can be communicated with outside terminal.Communication unit 115 is realized by communication IF 104.

[2-2. actions]

The action for the wearable terminal 100a that more than 22 pairs of reference picture is constituted is illustrated.

Figure 22 is the flow chart for illustrating an example of the 2nd display control of the wearable terminal of embodiment 2.

In the 2nd display control of embodiment 2, it is with the different part of embodiment 1, sentences in step S203 It is set to after "Yes", additional step S210.Therefore, only step S210 is illustrated.

After step S203 is determined as "Yes", control unit 112a is by controlling notification unit 114 to lead to the situation to user Know (S210).

Then, step S204 is shifted to.

[2-3. effects etc.]

According to the wearable terminal 100a of present embodiment, represent what is detected in the 1st period Δ t1 in the 2nd result judged In the case of being rested on towards D1 in the 2nd angular range, theta 2 of multiple display surfaces 11, by controlling notification unit 114 come logical to user Know the situation, therefore, user can be known, with next make display surface 11 towards D1 towards departing from the 2nd angular range, theta 2 The mode in direction makes wearable terminal 100a postural change, and display part 113 can be made to recover from sleep state.Therefore, even if In the case where the action for the wrist that dress wears wearable terminal 100a is restricted, also only from when the notice of notification unit 114 Rising makes wearable terminal 100a postural change, display part 113 is recovered from sleep state.I.e. it is capable to have Effect ground makes display part 113 recover from sleep state.

[variation 1 of 2-4. embodiments 2]

Then, the variation 2 to embodiment 2 is illustrated.

In above-mentioned embodiment 2, control unit 112a according to the testing result of test section 111 during being judged to the 1st In the case of being rested on towards D1 in the 2nd angular range, theta 2 of multiple display surfaces 11 that Δ t1 is detected, by controlling notification unit 114 inform the user the situation, but are not limited to this.For example, the 3rd judgement can also be the direction of the display surface 11 newly detected D1 whether to the direction change with predetermined direction of rotation opposite side and depart from the 2nd angular range, theta 2 judgement.Judge the 3rd Result represent the display surface newly detected towards D1 to the direction change and disengaging with predetermined direction of rotation opposite side In the case of 2nd angular range, control unit 112a is by controlling notification unit 114, and next inform the user makes display Face 11 when changing towards D1 to predetermined direction of rotation side makes display part 113 from the meaning of sleep state recovery.

Figure 23 is the flow chart for illustrating an example of the 2nd display control of the variation 2 of embodiment 2.

In the 2nd display control of the variation 2 of embodiment 2, difference is compared with embodiment 2, Step S203 is determined as after "Yes", additional step S211~S212, in addition, step of replacing S204 and carry out step S213.Therefore, Only step S211~step S213 is illustrated.

After being determined as "Yes" in step S203, control unit 112a judge display surface 11 towards D1 whether to it is predetermined The negative direction of rotation change of direction of rotation (such as positive direction of rotation) opposite side, and depart from the 2nd angular range, theta 2 (S211).Positive direction of rotation refers to a direction in clockwise direction and counter clockwise direction.Negative direction of rotation refers to Another direction in clockwise direction and counter clockwise direction.

Control unit 112a be determined as display surface 11 towards D1 to predetermined direction of rotation (such as positive rotation side To) the negative direction of rotation change of opposite side, and depart from the situation (being "Yes" in S211) of the 2nd angular range, theta 2, pass through Notification unit 114 is controlled, next inform the user makes making when changing towards D1 to predetermined direction of rotation side for display surface 11 Meaning (S212) of the display part 113 from sleep state recovery.On the other hand, control unit 112a be determined as display surface 11 towards D1 Without departing from the situation (in S211 be "No") of the 2nd angular range, theta 2 (i.e. in the 2nd angular range, theta 2), return to step S202。

After step s 212, control unit 112 judges the display surface 11 of the display part 113 newly detected by test section 111 Towards D1 whether to predetermined direction of rotation (positive direction of rotation) side change (S213), in the display surface 11 of display part 113 In the case of changing towards D1 to predetermined direction of rotation (positive direction of rotation) side, step S205 display is carried out, unchanged In the case of change, step S203 is returned to.

So, in the wearable terminal 100a of the variation 2 of embodiment 2, by step S211, display surface 11 Towards D1 to the negative direction change with predetermined direction of rotation opposite side, and when departing from 2 angular range, theta 2, it can notify The situation, therefore, user can be by making the negative direction change towards D1 to opposite side of display surface 11 and departing from the 2nd angle Range Theta 2, to know whether being state that display surface 11 can be made to recover from sleep state.Therefore, it is possible to more effectively make display Recover from sleep state in portion 113.

(other embodiment)

In addition, in the respective embodiments described above and variation, each inscape by special hardware configuration or can pass through The software program adaptable with each inscape is performed to realize.Each inscape can be by the program of CPU or processor etc. Enforcement division reads and performs the software program in the recording medium recording of hard disk or semiconductor memory etc. to realize.Here, real The software of the display control method of existing the respective embodiments described above etc. is following program.

That is, computer has：

Display part, the display information under dispaly state, does not show described information in a sleep state；

Test section, is detected in different timings to the direction of the display surface of the display part；And

Processor.Program makes computing device handle as follows：(i) carry out the 1st to judge, in the 1st judges, judge by institute The direction of display surface newest at the time of test section is detected is stated whether in the 1st angular range, the 1st angular range is By make towards the display surface of the 1st reference direction using at least two axles in three dimensions as pivot rotate when The angular range that defines of the anglec of rotation, (ii) is in the 1st result judged as the direction of the newest display surface In the case that 1st angular range is outer, the display part is set to be in sleep state, at the direction of the newest display surface In the case of in the 1st angular range, it is the dispaly state to make the display part,

Program also makes computing device handle as follows：

(i) the 2nd angular range is determined, the 2nd angular range is to be used in the institute that the different timing is detected The direction stated at least one in the direction of display surface and determined is as the 2nd reference direction, by making towards the 2nd reference direction The display surface using at least two axles in the three dimensions as pivot rotate when the anglec of rotation definition And the angular range outside the 1st angular range,

(ii) the multiple displays detected in the 1st period before the 1st scheduled time untill current are judged The 2nd the judgement whether direction in face is rested in the 2nd angular range determined,

(iii) direction of the multiple display surfaces detected during the described 2nd result judged represents the described 1st In the case of resting in the 2nd angular range that is determined, judged described to be shown by what the test section was newly detected Show whether the direction in face departs from the 3rd of the 2nd angular range and judge,

(iv) the 2nd display control is carried out, the direction of the display surface newly detected is represented in the described 3rd result judged In the case of departing from the 2nd angular range, the display part is switched from the sleep state to the dispaly state,

In the 2nd display control, even if the direction of the display surface newly detected is in the 1st angle When outside scope, the switching from the sleep state of the display part to the dispaly state is also carried out.

More than, the arm dress based on embodiment one or more technical schemes of this disclosure is worn terminal and said It is bright, but the disclosure is not limited to the embodiment.Without departing from the scope of the present disclosure, this area is implemented to present embodiment Technical staff it is conceivable that the modes of various modifications, the mode constructed of the inscape in the different embodiments of combination also wraps It is contained in the range of one or more technical schemes of the disclosure.

Industrial applicability

The disclosure can be applied to also can easily make in the state of the action for filling the wrist worn is restricted The wearable terminal that display part recovers from sleep state.

Label declaration

10 main parts

11 display surfaces

12 viewing areas

20 band portions

100th, 100a wearable terminals

101 CPU

102 main storages

103 memories

104 communication IFs

105 acceleration transducers

106 3 axis angular rate sensors

107 displays

108 vibrating elements

109 loudspeakers

110 LED

111 test sections

112nd, 112a control units

113 display parts

114 notification units

115 communication units

201st, 201a, 201b are shown

The angular ranges of θ 1 the 1st

The angular ranges of θ 2 the 2nd

Claims (18)

1. a kind of wearable terminal, is wearing on the forethiga of user, has：

Display part, the display information under dispaly state, does not show described information in a sleep state；

Test section, is detected in different timings to the direction of the display surface of the display part；And

Control unit, (i) carries out the 1st and judged, in the described 1st judges, judgement is newest at the time of being detected by the test section Whether the direction of display surface is in the 1st angular range, and the 1st angular range is as making towards described in the 1st reference direction Display surface using at least two axles in three dimensions as pivot rotate when the angular range that defines of the anglec of rotation, (ii) the first display control is carried out, described 1st jiao is in as the direction of the newest display surface in the 1st result judged In the case of spending outside scope, it is the sleep state to make the display part, is shown in the 1st result judged as described newest In the case of showing that the direction in face is in the 1st angular range, it is the dispaly state to make the display part,

The control unit is also handled as follows：(i) determine the 2nd angular range, the 2nd angular range be used in it is described At least one and the direction that determines in the direction for the display surface that different timings is detected as the 2nd reference direction, by Make towards the display surface of the 2nd reference direction using at least two axles in the three dimensions as pivot Angular range that anglec of rotation during rotation is defined and outside the 1st angular range, (ii) is judged pre- from the 1st Before fixing time untill current the 1st during the direction of multiple display surfaces that detects whether rest on determined described The 2nd in 2nd angular range judges, (iii) carries out the 3rd and judged, during the described 2nd result judged represents the described 1st In the case that the direction of the multiple display surfaces detected is rested in the 2nd angular range determined, judge by institute Whether the direction for stating the display surface that test section is newly detected departs from the 2nd angular range, and (iv) carries out the 2nd display control System, feelings of the direction departing from the 2nd angular range of the display surface newly detected are represented in the described 3rd result judged Under condition, the display part is switched from the sleep state to the dispaly state,

In the 2nd display control, the direction even in the display surface newly detected is in the 1st angle model Enclose it is outer in the case of, also carry out the switching from the sleep state of the display part to the dispaly state.

2. wearable terminal as claimed in claim 1,

The direction of the display surface of at least one is included in the 2nd period before the 2nd scheduled time untill current by described The direction for multiple display surfaces that test section is detected in different timings,

The control unit in the decision of the 2nd angular range, by during the described 2nd by the test section detect it is many The average direction of the direction of the individual display surface, and will be centered on the 2nd reference direction as the 2nd reference direction The angular range of use value set in advance definition be determined as the 2nd angular range.

3. wearable terminal as claimed in claim 1 or 2,

The direction of the display surface of at least one include before the 2nd scheduled time untill current the 2nd during by The direction for multiple display surfaces that the test section is detected in different timings,

The control unit is judged to be detected by the test section during the described 2nd in the decision of the 2nd angular range To multiple display surfaces direction whether periodically change repeatedly the 4th judge, the described 4th judge result represent The direction of the multiple display surfaces detected periodically repeatedly change in the case of, by by it is described detect it is multiple Display surface described in the direction of the display surface is respectively relative to the maximum and most of the anglec of rotation of at least two axle The angular range of small value definition is determined as the 2nd angular range.

4. wearable terminal as claimed in claim 1,

The control unit is in the 2nd display control, in the display surface for being judged to newly being detected by the test section Towards changing to the predetermined direction of rotation side using an axle at least two axle as pivot and depart from the described 2nd In the case of angular range, the display part is set to switch from the sleep state to the dispaly state.

5. wearable terminal as claimed in claim 4,

The wearable terminal has：

Main part, with the display part, the test section and the control unit；With

Band portion, is connected with the two ends of the main part, and the main part is annularly on the forethiga,

At least two axles in the three dimensions be the 1st axle corresponding with winding the wireline reel in the band portion and with being connected Corresponding 2nd axle of rotary shaft that the side at two ends is upwardly extended is stated,

The predetermined direction of rotation is using the 1st axle as the clockwise direction of rotation of rotary shaft and rotation counterclockwise A direction of rotation in direction.

6. wearable terminal as claimed in claim 1,

The control unit makes display of the information on the display part in the 1st display control and the 2nd display control Mode is different.

7. wearable terminal as claimed in claim 6,

The control unit makes the size of the image in the 2nd display control or the size of font be more than the 1st display control In image size or the size of font.

8. wearable terminal as claimed in claim 6,

The control unit makes the illumination of the backlight of the display part in the 2nd display control be higher than the 1st display control In the display part backlight illumination.

9. wearable terminal as claimed in claim 6,

The control unit makes the contrast of the display of the display part in the 2nd display control be more than the described 1st display control The contrast of the display of the display part in system.

10. wearable terminal as claimed in claim 6,

The control unit makes the display part from the sleep state to the dispaly state from the 1st display control From at the time of after switching after the 1st display time, it is the sleep state to make the display part,

The control unit makes the display part from the sleep state to the dispaly state from the 2nd display control From at the time of after switching after the 2nd display time longer than the 1st display time, it is the sleep to make the display part State.

11. wearable terminal as claimed in claim 10,

The control unit makes the display part switch from the sleep state to the dispaly state in the 2nd display control In the case of afterwards, according to the application program that the switching from the sleep state to the dispaly state is responded and shown, make The 2nd display time is different.

12. wearable terminal as claimed in claim 1,

The wearable terminal also has notification unit,

The direction for multiple display surfaces that the control unit is detected during the described 2nd result judged represents the described 1st is stopped In the case of staying in the 2nd angular range, by controlling the notification unit to inform the user the situation.

13. the wearable terminal as described in claim 4 or 5,

The wearable terminal also has notification unit,

It is described 3rd judge in judgement be the display surface newly detected direction whether to the predetermined rotation The direction change of side in opposite direction and the judgement for departing from the 2nd angular range,

The described 3rd result judged represent the direction of the display surface newly detected to the predetermined rotation side To opposite side direction change and departing from the 2nd angular range in the case of, by controlling the notification unit, to user Notify that when the direction of the display surface next detected changes to the predetermined direction of rotation side display part can be made From the sleep state to the meaning of the dispaly state switching.

14. wearable terminal as claimed in claim 12,

The notification unit is by making the wearable terminal vibration be notified to user.

15. wearable terminal as claimed in claim 12,

The notification unit is notified by reproducing sound to user.

16. wearable terminal as claimed in claim 12,

The wearable terminal also has the communication unit with outside terminal communication,

The notification unit is notified via the communication unit to the terminal of the outside.

17. wearable terminal as claimed in claim 12,

The notification unit is notified by lighting to user.

18. a kind of display control method, is the display control method of wearable terminal,

The wearable terminal has：

Display part, the display information under dispaly state, does not show described information in a sleep state；

Test section, is detected in different timings to the direction of the display surface of the display part；And

Processor,

In the display control method, the computing device is set to handle as follows：

(i) the 1st is carried out to judge, in the described 1st judges, newest display surface at the time of judging to be detected by the test section Towards whether in the 1st angular range, the 1st angular range be by make the display surface towards the 1st reference direction with The angular range that anglec of rotation when at least two axles in three dimensions rotate respectively as pivot is defined, (ii) is carried out First display control, is in outside the 1st angular range in the 1st result judged as the direction of the newest display surface In the case of, it is sleep state to make the display part, is in the direction of the newest display surface in the 1st angular range In the case of, it is the dispaly state to make the display part,

In the display control method, the computing device is also set to handle as follows：

(i) the 2nd angular range is determined, the 2nd angular range is be used in that the different timing detects described aobvious The direction for showing at least one in the direction in face and determining is as the 2nd reference direction, by making the institute towards the 2nd reference direction State display surface using at least two axles in the three dimensions as pivot rotate when the anglec of rotation define and Angular range outside the 1st angular range,

(ii) judged before the 1st scheduled time untill current the 1st during multiple display surfaces for detecting Towards whether the 2nd rested in the 2nd angular range determined judges,

(iii) carry out the 3rd to judge, the multiple displays detected during the described 2nd result judged represents the described 1st In the case that the direction in face is rested in the 2nd angular range determined, the institute newly detected by the test section is judged Whether the direction for stating display surface departs from the 2nd angular range,

(iv) the 2nd display control is carried out, the direction for representing the display surface newly detected in the described 3rd result judged departs from In the case of 2nd angular range, the display part is switched from the sleep state to the dispaly state,

In the 2nd display control, even if the direction of the display surface newly detected is in the 1st angular range When outer, the switching from the sleep state of the display part to the dispaly state is also carried out.