CN103513881B - Electronics and electronics control method and the device of display interface - Google Patents

Abstract

Controlling method and the device of display interface in electronics and electronics, described method comprises: when the first operational order by the first input unit input being detected, control display interface translates; When the 2nd operational order by the 2nd input unit input being detected, control display interface rotates. Display interface translation is separated by the present invention with display interface Rotary District, both are realized by different input units respectively, eliminate loaded down with trivial details blocked operation between the two, easy and simple to handle, and decrease mishandle, and eliminate for rotating the instruction switching key that switches or instruction switching icon between the two at display interface translation and display interface, thus avoid the waste of screen display space, it is to increase the utilization ratio of screen display resource.

Description

Electronics and electronics control method and the device of display interface

Technical field

The present invention relates to human-computer interaction technique field, particularly relate to the method and device that control display interface in a kind of electronics and electronics.

Background technology

Man-machine interaction (English: Human ComputerInteraction or Human MachineInteraction, to be called for short HCI or HMI) is the knowledge of the interactive relation between a research system and user. Refer to and between people and computer, use certain dialogue language, with certain interactive mode, for completing the information exchanging process determining between the people of task and computer.

Touch-screen (touchscreen) is also called and touches control screen, contact panel, it it is a kind of induction type liquid crystal indicator receiving the input signals such as contact, when contacting the graphic button on screen, haptic feedback system on screen can according to the various connected unit of the driven by program of preprogramming, in order to replace mechanical push button panel, and lively visual and sound effects can be produced by liquid crystal display picture.

As shown in Figure 1, prior art normally controls display interface by a touch-screen and carries out translating and rotating, specifically:

S101, detects to there is contact on described touch-screen;

S102, detects the single contact slide instruction of user on described touch-screen;

S103, carry out blocked operation judgement, described blocked operation judges to carry out display interface translation after judging the single contact slide instruction detected on described touch-screen, or display interface rotates, the former then turns to S104a, the latter then turns to S104b, and described blocked operation judges to adopt instruction switching key or instruction switching icon to realize;

S104a, enters display interface translational mode, identifies the single contact slide instruction of user on described touch-screen, adjusts display interface translation state parameter with this, and in described touch screen display;

S104b, enters display interface rotary mode, identifies the single contact slide instruction of user on described touch-screen, adjusts display interface rotating state parameter with this, and in described touch screen display;

S105, detects that the contact on described touch-screen disappears, and stop the rotation display interface.

Controlling the defect existing for method that display interface carries out translating and rotating in above-mentioned electronics is: in order to display interface translation be separated with display interface Rotary District, after user's single contact slide instruction on the touchscreen being detected, need first to judge to perform display interface translation, or display interface rotates. This judges usually to need to adopt an instruction switching key or instruction switching icon to realize, and such switching can be made troubles to user. And, instruction switching key or instruction switching icon also can take certain display area, are a kind of wastes for limited screen display resource.

For these reasons, contriver translates and the method that rotates has been improved controlling display interface in electronics, it is intended to save display interface translation and rotates loaded down with trivial details blocked operation between the two with display interface, and the waste of the screen display space thus caused.

Summary of the invention

What the present invention solved is control display interface in prior art in electronics to carry out translating and rotate the technical problem needing repeatedly to carry out blocked operation.

In order to solve the problem, the embodiment of the present invention provides a kind of method controlling display interface in electronics, comprising:

When the first operational order by the first input unit input being detected, control display interface translates;

When the 2nd operational order by the 2nd input unit input being detected, control display interface rotates.

Optionally, described control display interface carries out rotation and is specially: controls described display interface and carries out center rotation or axle rotates.

Optionally, described first operational order and the 2nd operational order are identical instruction.

Optionally, described first operational order and the 2nd operational order are single contact slide instruction.

Optionally, described first input unit lays respectively at the relative two sides of described electronics with described 2nd input unit.

Optionally, described first input unit is the first contactor control device, and described 2nd input unit is the 2nd contactor control device.

Optionally, described first contactor control device is touch-screen or touch pad, and described 2nd contactor control device is touch-screen or touch pad.

Optionally, described in detect by the 2nd input unit input the 2nd operational order time, control display interface carry out rotating specifically comprising the following steps:

Detect that the 2nd contactor control device exists contact;

Enter display interface rotary mode, from described 2nd contactor control device, obtain contact data;

The change of the contact position on described 2nd contactor control device detected, obtain the contact data after change, calculate the view parameter after contact position change;

View parameter after changing according to described contact position, adjustment display interface rotating state parameter also shows;

When detecting that the contact on described 2nd contactor control device disappears, stop the rotation display interface.

Optionally, described in detect the 2nd contactor control device exist contact after, before entering display interface rotary mode, also comprise:

Determine that described contact continued presence exceedes preset time period.

Optionally, described in detect the 2nd contactor control device exist contact after, before entering display interface rotary mode, also comprise:

Determine whether described 2nd contactor control device has and only have a contact, if it does, then enter display interface rotary mode.

Optionally, described in detect on described 2nd contactor control device contact position change, obtain change after contact data, calculate contact position change after view parameter specifically:

The contact obtained from the 2nd contactor control device change in two-dimensional direct angle coordinate system before contact position value be T₀(x_t0, y_t0), the view parameter before changing in spherical coordinate system is

Contact position value after change is T₁(x_t1,y_t1), the view parameter after change isAccording to following formulae discovery go out contact position change after view parameter

��₁=��₀+(y_t1-y_t0)��ratio_y

Wherein, ratio_yAnd ratio_xFor the proportionlity of default angle of rotation and contact miles of relative movement.

Optionally, the view parameter after changing according to described contact position, adjusts display interface rotating state parameter in real time and shows in real time.

In order to solve the problem, the embodiment of the present invention also provides the device controlling display interface in a kind of electronics, comprising:

First control unit, during for the first operational order by the first input unit input being detected, control display interface translates;

2nd control unit, during for the 2nd operational order by the 2nd input unit input being detected, control display interface rotates.

Optionally, specifically for controlling, described display interface carries out center rotation or axle rotation to described 2nd control unit.

Optionally, described first input unit lays respectively at the relative two sides of electronics with described 2nd input unit.

Optionally, described first input unit is the first contactor control device, and described 2nd input unit is the 2nd contactor control device.

Optionally, described first contactor control device is touch-screen or touch pad, and described 2nd contactor control device is touch-screen or touch pad.

Optionally, described 2nd control unit comprises:

, there is contact for detecting on the 2nd contactor control device in contact detection sub-unit, and disappears for the contact detected on described 2nd contactor control device;

Contact data obtain subelement, after detecting to there is contact on the 2nd contactor control device in described contact detection sub-unit, obtain contact data from described 2nd contactor control device;

Slip detection sub-unit, after obtaining subelement executable operations in described contact data, detects the change of the contact position on described 2nd contactor control device, obtains the contact data after change;

Computation subunit, for, after described slip detection sub-unit executable operations, calculating the view parameter after contact position change;

Adjustment subelement, for the view parameter adjustment display interface rotating state parameter after described computation subunit executable operations, after changing according to described contact position;

Display subelement, for, after described adjustment subelement executable operations, showing the result after display interface rotating state parameter adjustment on a display screen.

Optionally, described 2nd control unit also comprises:

Subelement is eliminated in mishandle, for after contact detection sub-unit detects and there is contact on the 2nd contactor control device, it is determined that the described contact continued presence time exceedes preset time period.

Optionally, described 2nd control unit also comprises:

Single contact confirms subelement, for after contact detection sub-unit detects and there is contact on the 2nd contactor control device, it is determined that whether have and only have a contact on described 2nd contactor control device, if it does, then send acknowledgement signal to obtain subelement to contact data.

In order to solve the problem, the embodiment of the present invention also provides a kind of electronics, comprises the device of above-mentioned control display interface.

Compared with prior art, the technical scheme of the present invention has the following advantages:

Display interface translation is separated with display interface Rotary District, both are realized by different input units respectively, eliminate loaded down with trivial details blocked operation between the two, easy and simple to handle, and decrease mishandle, and owing to eliminating for rotating the instruction switching key that switches or instruction switching icon between the two at display interface translation and display interface, thus avoid the waste of screen display space, it is to increase the utilization ratio of screen display resource.

Further, control display interface by other input units input instruction beyond display screen to rotate so that in user operation process, finger can not block screen.

Accompanying drawing explanation

Fig. 1 is the method flow diagram controlling display interface in prior art in electronics;

Fig. 2 is the method flow diagram controlling display interface in the embodiment of the present invention one in electronics;

Fig. 3 is the method flow diagram controlling display interface in the embodiment of the present invention two in electronics;

Fig. 4 is spherical coordinate system parameter definition schematic diagram in the embodiment of the present invention two;

Fig. 5 is the apparatus structure schematic diagram controlling display interface in the embodiment of the present invention three in electronics.

Embodiment

In the embodiment of the present invention, detection controls display interface by the operational order of different input units input and carries out translating or rotating, thus above-mentioned two kinds of operational orders are distinguished and opens, eliminate loaded down with trivial details blocked operation between the two, avoid simultaneously instruction switching key or instruction switching icon to the waste of screen display space.

For making those skilled in the art understand better and realize the present invention, referring to accompanying drawing, it is described in detail by specific embodiment.

Embodiment one

With reference to the method flow diagram controlling display interface in the electronics shown in Fig. 2, it is described in detail below by way of concrete steps:

S201, when the first operational order by the first input unit input being detected, control display interface translates.

In concrete enforcement, the electronics that the present invention applies can be handheld mobile device, naturally it is also possible to be other electronics.

When being applied to handheld mobile device, can be specifically mobile terminal of mobile telephone, palm PC, handheld game machine etc.

S202, when the 2nd operational order by the 2nd input unit input being detected, control display interface rotates.

In concrete enforcement, described first input unit and described 2nd input unit can be contactor control devices, it is also possible to be the input unit of other type.

When described first input unit and/or described 2nd input unit are contactor control devices, specifically can touch-screen or touch pad, such as one is touch-screen, and another is touch pad. It will be understood by those skilled in the art that, described first contactor control device and the 2nd contactor control device can also be the contactor control devices of other type.

In concrete enforcement, described control display interface rotates, and concrete rotation mode can be that center rotates or axle rotates.

Wherein, when center rotates, rotation center can be the central point of display interface, naturally it is also possible to be other position on display interface.

When axle rotates, turning axle can be vertical with the travel direction of the 2nd operation in the plane of display interface, and the axle of the starting position of the central point through display interface or the 2nd operation by the 2nd input unit input.

In concrete enforcement, described first operational order and the 2nd operational order both can be identical instructions, it is also possible to be different instructions. And no matter whether the first operational order and the 2nd operational order are identical instructions, display interface translation and display interface rotation realize owing to have employed different input units respectively, therefore all both above-mentioned differentiations can be opened, and without the need to instruction switching key or icon.

Have employed contactor control device at the first input unit and the 2nd input unit, and when the first operational order and the 2nd operational order are identical instructions, can be single contact slide instruction usually, naturally it is also possible to be other instruction.

Embodiment two

With reference to the method flow diagram controlling display interface in the electronics shown in Fig. 3, in the present embodiment, according to the single contact slide instruction that the user detected is inputted by the 2nd contactor control device, control display interface carries out axle rotation in the 3 d space.Illustrate that below by way of concrete steps how controlling display interface rotates in detail.

S301, detects to there is contact on the 2nd contactor control device.

S302, it is determined that described contact continued presence exceedes preset time period.

In concrete enforcement, dropping due to dust or colliding with or other similar reason during taking and placing so that there is of short duration contact on the 2nd contactor control device, can be mistaken as is the operational order of user, causes mishandle. For addressing this problem, after determining described contact continued presence regular hour section, just think the operational order of user, less than the contact of the of short duration existence of above-mentioned time period, then think mishandle, and do not respond. The length of above-mentioned time period can be default usually, such as, can be 50ms or 100ms, naturally it is also possible to is other rational time period length.

It should be appreciated that the step of above-mentioned elimination mishandle it is not necessary to, even if removing this step, also can not affect the enforcement of the present invention program, thus in another embodiment, it is possible to skip this step, directly carrying out follow-up step.

S303, it is determined that whether have and only have a contact on described 2nd contactor control device.

The effect of this step is: after detecting and there is contact on the 2nd contactor control device, determines whether single contact, if single contact, then enters display interface rotary mode, if multiple contact, then perform other and operate accordingly.

It should be appreciated that when the instruction of undefined multi-point touch on the 2nd contactor control device, it is possible to skip this step, directly carry out follow-up step, now, for the multi-point touch operation instruction detected, it is possible to there is multiple processing mode, such as:

Multi-point touch on 2nd contactor control device also can be thought single-point touch. Specifically it may be that be as the criterion with the contact position detected at first obtain contact data, and other contact detected after ignoring;

Multi-point touch on 2nd contactor control device can also be thought mishandle, and not respond.

It should be added that, above-mentioned two optional step S202 and S203, both can adopt simultaneously or select an employing, it is also possible to all do not adopt, and precedence relationship between the two can be exchanged.

S304, enters display interface rotary mode, obtains contact data from described 2nd contactor control device.

When controlling display interface and carry out axle rotation in the 3 d space, turning axle is vertical with the travel direction of the single contact slide of user's input in the plane of display interface, and through view-point, wherein, described view-point is the initial contact of described single contact slide or the central point of display interface.

View-point position adopts the point (x, y) in two-dimensional direct angle coordinate system to express usually, the coordinate that wherein x, y represent a little respectively in x-axis, y-axis two orthogonal coordinate axis;

View parameter adopts the vector in spherical coordinate system usuallyExpress.

Please refer to Fig. 4, in the present embodiment, the coordinate of spherical coordinate system take true origin as reference point, determines by distance, the elevation angle, 3, position angle parameter. Wherein, distance r is the vector length of vector, and elevation angle theta is the angle that y-axis positive dirction turns over clockwise to vector, position angleFor the angle that z-axis positive dirction turns over clockwise to the projection of vector in x, z-axis plane.

It should be understood that above-mentioned r, ��,Definition and the most common phraseology slightly difference of spherical coordinate system, this is to make calculating more convenient.

The contact obtained from the 2nd contactor control device change in two-dimensional direct angle coordinate system before contact position value be T0(x_t0, y_t0), the view parameter before changing in spherical coordinate system is

Carry out in the process rotated at control display interface, owing to view parameter is only relevant with direction vector, and unrelated with vector length. , it is possible to vector length is set to any one rational length, therefore calculate in order to convenient, usually can adopt unit vector.

S305, detects the change of the contact position on described 2nd contactor control device, obtains the contact data after change, calculates the view parameter after contact position change.

Contact position value after the change obtained from the 2nd contactor control device is T₁(x_tx,y_t1), if the view parameter after change isAccording to following formulae discovery:

��₁=��₀+(y_t1-y_t0)��ratio_y

Wherein, ratio_yAnd ratio_xFor the proportionlity of default angle of rotation and contact miles of relative movement.

According to above-mentioned formula determine contact position change after view parameter

It should be noted that, above-mentioned formula adopts the vector in spherical coordinate system to state, and is the relation in order to describe more easily between contact position change front and back view parameter and position value. It is noted that spherical coordinate system and three-dimensional cartesian coordinate system can be changed mutually, the view parameter after contact position change, can adopt the parameters relationship under three-dimensional cartesian coordinate system to calculate equally, and be not limited only to above-mentioned formula.

S306, the view parameter after changing according to described contact position, adjustment display interface rotating state parameter also shows.

When the first contactor control device have employed touch-screen, it is possible to the result after adjustment display interface rotating state parameter is shown on the touchscreen, certainly, it is also possible to be displayed on other display screen.

In a preferred embodiment, according to the slide of user on the 2nd contactor control device, system adjusts view parameter in real time, and shows in real time on a display screen. Being understood that, real-time adjustment herein and showing in real time, can be set to postpone regular hour Duan Houzai equally adjusts and display.

S307, when detecting that the contact on described 2nd contactor control device disappears, stop the rotation display interface.

In concrete enforcement, this step can add elimination mishandle function equally that be similar to step S302, specifically: determine that described contact disappears after regular hour section continuously, just think that the instruction of user on the 2nd contactor control device inputs complete; Less than the disappearance that the contact of above-mentioned time period is of short duration, then think mishandle, after again contact being detected, continue the view parameter after the change of the change calculations according to contact position valueAdjustment display interface rotating state parameter. The length of above-mentioned time period can adopt default mode equally.

Embodiment three

With reference to the device controlling display interface in the electronics shown in Fig. 5, comprising: the first control unit 503, the 2nd control unit 504;

First control unit 503, during for the first operational order by the first input unit input being detected, control display interface translates;

2nd control unit 504, during for the 2nd operational order by the 2nd input unit input being detected, control display interface rotates.

Display interface translation is separated with display interface Rotary District, both are realized by different input units respectively, eliminate loaded down with trivial details blocked operation between the two, easy and simple to handle, and decrease mishandle, and owing to eliminating for rotating the instruction switching key that switches or instruction switching icon between the two at display interface translation and display interface, thus avoid the waste of screen display space, it is to increase the utilization ratio of screen display resource.

Described first input unit lays respectively at the relative two sides of electronics with described 2nd input unit.

Described first input unit is the first contactor control device 501, and described 2nd input unit is the 2nd contactor control device 502.

Described first contactor control device 501 is touch-screen or touch pad, and described 2nd contactor control device 502 is touch-screen or touch pad.

Further, control display interface by other input units input instruction beyond display screen to rotate so that in user operation process, finger can not block screen.

In a preferred embodiment, specifically for controlling, described display interface carries out center rotation or axle rotation to described 2nd control unit 504.

In a preferred embodiment, described 2nd control unit 504 comprises: contact detection sub-unit 505, contact data obtain subelement 506, slip detection sub-unit 507, computation subunit 508, adjustment subelement 509, display subelement 510;

, there is contact for detecting on the 2nd contactor control device 502 in contact detection sub-unit 505, and disappears for the contact detected on described 2nd contactor control device 502;

Contact data obtain subelement 506, after detecting to there is contact on the 2nd contactor control device 502 in described contact detection sub-unit 505, obtain contact data from described 2nd contactor control device 502;

Slip detection sub-unit 507, after obtaining subelement 506 executable operations in described contact data, detects the change of the contact position on described 2nd contactor control device 502, obtains the contact data after change;

Computation subunit 508, after performing 507 operations in described slip detection sub-unit, calculates the view parameter after contact position change;

Adjustment subelement 509, for the view parameter adjustment display interface rotating state parameter after described computation subunit 508 executable operations, after changing according to described contact position;

Display subelement 510, for, after described adjustment subelement 509 executable operations, showing the result after display interface rotating state parameter adjustment on a display screen.

In a preferred embodiment, described 2nd control unit 504 can also comprise: subelement 511 is eliminated in mishandle;

Subelement 511 is eliminated in mishandle, for after contact detection sub-unit 505 detects and there is contact on the 2nd contactor control device 502, it is determined that the described contact continued presence time exceedes preset time period. In a particular embodiment, described preset time period can be 50ms or 100ms.

Adopt mishandle to eliminate subelement 511 can avoid dropping due to dust or colliding with or other similar reason during taking and placing so that the 2nd contactor control device 502 exists of short duration contact, and to be mistaken as be the operational order of user, cause mishandle.

In a preferred embodiment, described 2nd control unit 504 can also comprise: single contact confirms subelement 512;

Single contact confirms subelement 512, for after contact detection sub-unit 505 detects and there is contact on the 2nd contactor control device 502, determine whether described 2nd contactor control device 502 has and only have a contact, if it does, then send acknowledgement signal to obtain subelement 506 to contact data.

Subelement 512 after detecting and there is contact on the 2nd contactor control device 502, can determine whether single contact, if single contact, then enter display interface rotary mode, if multiple contact, then perform other and operate accordingly to adopt single contact to confirm.

The all or part of step that one of ordinary skill in the art will appreciate that in the various methods of above-described embodiment can be completed by the hardware that program carrys out instruction relevant, this program can be stored in a computer-readable recording medium, and storage media can comprise: ROM, RAM, disk or CD etc.

Although present disclosure is as above, but the present invention is not defined in this. Any those skilled in the art, without departing from the spirit and scope of the present invention, all can make various changes or modifications, and therefore protection scope of the present invention should be as the criterion with claim limited range.

Claims (15)

1. an electronics controls the method for display interface, it is characterised in that, comprising:

When the single contact slide instruction by the first contactor control device input being detected, control display interface translates;

When the single contact slide instruction by the 2nd contactor control device input being detected, control display interface rotates;

Wherein, described in when the 2nd operational order by the 2nd contactor control device input being detected, control display interface carries out rotating and specifically comprises the following steps: to detect to there is contact on the 2nd contactor control device; Enter display interface rotary mode, from described 2nd contactor control device, obtain contact data; The change of the contact position on described 2nd contactor control device detected, obtain the contact data after change, calculate the view parameter after contact position change; View parameter after changing according to described contact position, adjustment display interface rotating state parameter also shows; When detecting that the contact on described 2nd contactor control device disappears, stop the rotation display interface.

2. electronics as claimed in claim 1 controls the method for display interface, it is characterised in that, described control display interface carries out rotation and is specially: controls described display interface and carries out center rotation or axle rotation.

3. electronics as claimed in claim 1 controls the method for display interface, it is characterised in that: described first contactor control device lays respectively at the relative two sides of described electronics with described 2nd contactor control device.

4. electronics as claimed in claim 1 controls the method for display interface, it is characterised in that: described first contactor control device is touch-screen or touch pad, and described 2nd contactor control device is touch-screen or touch pad.

5. electronics as claimed in claim 1 controls the method for display interface, it is characterised in that, described in detect the 2nd contactor control device exist contact after, before entering display interface rotary mode, also comprise:

Determine that described contact continued presence exceedes preset time period.

6. electronics as claimed in claim 1 controls the method for display interface, it is characterised in that, described in detect the 2nd contactor control device exist contact after, before entering display interface rotary mode, also comprise:

Determine whether described 2nd contactor control device has and only have a contact, if it does, then enter display interface rotary mode.

7. electronics as claimed in claim 1 controls the method for display interface, it is characterised in that, described in the change of the contact position on described 2nd contactor control device detected, obtain the contact data after change, calculate contact position change after view parameter specifically:

The contact obtained from the 2nd contactor control device change in two-dimensional direct angle coordinate system before contact position value be T₀(x_t0, y_t0), the view parameter before changing in spherical coordinate system is (r₀,��₀,);

Contact position value after change is T₁(x_t1,y_t1), the view parameter after change is (r₁,��₁,), according to following formulae discovery go out contact position change after view parameter (r₁,��₁,):

��₁=��₀+(y_t1-y_t0)��ratio_y

Wherein, ratio_yAnd ratio_xFor the proportionlity of default angle of rotation and contact miles of relative movement.

8. electronics as claimed in claim 1 controls the method for display interface, it is characterised in that: the view parameter after changing according to described contact position, adjusts display interface rotating state parameter in real time and shows in real time.

9. an electronics controls the device of display interface, it is characterised in that, comprising:

First control unit, during for the single contact slide instruction by the first contactor control device input being detected, control display interface translates;

2nd control unit, during for the single contact slide instruction by the 2nd contactor control device input being detected, control display interface rotates;

Wherein, described 2nd control unit comprises: contact detection sub-unit, there is contact for detecting on the 2nd contactor control device, and disappears for the contact detected on described 2nd contactor control device; Contact data obtain subelement, after detecting to there is contact on the 2nd contactor control device in described contact detection sub-unit, obtain contact data from described 2nd contactor control device; Slip detection sub-unit, after obtaining subelement executable operations in described contact data, detects the change of the contact position on described 2nd contactor control device, obtains the contact data after change; Computation subunit, for, after described slip detection sub-unit executable operations, calculating the view parameter after contact position change; Adjustment subelement, for the view parameter adjustment display interface rotating state parameter after described computation subunit executable operations, after changing according to described contact position; Display subelement, for, after described adjustment subelement executable operations, showing the result after display interface rotating state parameter adjustment on a display screen.

10. electronics as claimed in claim 9 controls the device of display interface, it is characterised in that: specifically for controlling, described display interface carries out center rotation or axle rotation to described 2nd control unit.

11. electronicss as claimed in claim 9 control the device of display interface, it is characterised in that: described first contactor control device lays respectively at the relative two sides of electronics with described 2nd contactor control device.

12. electronicss as claimed in claim 9 control the device of display interface, it is characterised in that: described first contactor control device is touch-screen or touch pad, and described 2nd contactor control device is touch-screen or touch pad.

13. electronicss as claimed in claim 9 control the device of display interface, it is characterised in that, described 2nd control unit also comprises:

Subelement is eliminated in mishandle, for after contact detection sub-unit detects and there is contact on the 2nd contactor control device, it is determined that the described contact continued presence time exceedes preset time period.

14. electronicss as claimed in claim 9 control the device of display interface, it is characterised in that, described 2nd control unit also comprises:

Single contact confirms subelement, for after contact detection sub-unit detects and there is contact on the 2nd contactor control device, it is determined that whether have and only have a contact on described 2nd contactor control device, if it does, then send acknowledgement signal to obtain subelement to contact data.

15. 1 kinds of electronicss, it is characterised in that: the device comprising the control display interface according to any one of claim 9 to 14.