CN205281403U - Intelligent wear device - Google Patents

Abstract

The utility model discloses an intelligent wear device, intelligent wear device includes: lie in the subsidiary touch -control board of an at least side, lie in positive main screen touch -control board, when intelligent wear device is in the input state, assists touch -control board and main screen touch -control board and receive the touch -control instruction respectively, touch -control chip assay owner screen touch -control board and assistance touch -control board acquire the touch -control instruction and handle the back and export, little the control unit assists the touch -control instruction of touch -control board and the touch -control instruction of received owner's screen touch -control board according to received, realizes information input. This technical scheme makes information input more convenient rapidly through assisting the main screen touch -control board of touch -control board cooperation, has solved small -size screen intelligent wear device's the problem that information input user experience is poor.

Description

A kind of Intelligent worn device

Technical field

The utility model relates to technical field of intelligent equipment, is specifically related to a kind of Intelligent worn device.

Background technology

At present, in Intelligent worn device (such as intelligent watch) field, owing to screen size is less, tradition input method is adopted to be unfavorable for user's input operation. A lot of producer transfers the method selecting to adopt phonetic entry, but phonetic entry exists many restrictions under some use scenes. Such as in a noisy environment, the accuracy of phonetic entry can be had an impact by external noise, causes Intelligent worn device cannot accurately identify user speech instruction; Or the scene (such as start Password Input, online banking password input etc.) having a lot of need for confidentiality in Intelligent worn device use procedure, at this moment uses the method for phonetic entry easily to cause the leakage of important information. So, in the field of Intelligent worn device, manual information input still has irreplaceable effect under some use scenes.

But, the screen size being limited to Intelligent worn device is less, and user is on the small-size screen of Intelligent worn device during manual input information, and the operation inconvenience such as click, selection also easily causes input error, and Consumer's Experience is poor.

Practical novel content

The utility model provides a kind of Intelligent worn device, less to solve the screen size of existing Intelligent worn device, the problem that user profile input operation is inconvenient, Consumer's Experience is poor.

According to a kind of Intelligent worn device that the utility model provides, this Intelligent worn device comprises: main screen curtain Trackpad, auxiliary Trackpad, touch chip and micro-control unit;

Auxiliary Trackpad is arranged on the side of at least side of Intelligent worn device, and main screen curtain Trackpad is arranged on the front of Intelligent worn device;

When Intelligent worn device is in input state, auxiliary Trackpad and main screen curtain Trackpad, receive the touch command of user respectively;

Touch chip, detection main screen curtain Trackpad and auxiliary Trackpad, obtain touch command, be sent to micro-control unit after touch command being processed respectively;

Micro-control unit, according to the touch command of the auxiliary Trackpad received, and the touch command of the main screen curtain Trackpad received, it is achieved the information input of Intelligent worn device.

Can selection of land, auxiliary Trackpad, in response to the slide of user, generate sliding touch instruction;

Main screen curtain Trackpad, in response to the clicking operation of user, generates and clicks touch command.

Can selection of land, main screen curtain Trackpad is all connected with touch chip with auxiliary Trackpad;

Touch chip is connected with micro-control unit by I2C bus.

Can selection of land, auxiliary Trackpad comprises: flexible PCB, and flexible PCB is provided with the metal electrode of multiple series connection, is connected with stray capacitance between each metal electrode;

Stray capacitance is also connected with the output pin of touch chip.

Can selection of land, Intelligent worn device is intelligent watch, and main screen curtain Trackpad is arranged on the dial plate of intelligent watch, and auxiliary Trackpad is arranged on the sidepiece of dial plate.

Can selection of land, flexible PCB is provided with four metal electrodes, on this flexible PCB after sticker PA plastic component, is embedded in the sidepiece of the dial plate housing of intelligent watch.

The utility model additionally provides a kind of Intelligent worn device, and this Intelligent worn device comprises: main screen curtain Trackpad, control knob, control signal detection encoder, touch chip and micro-control unit;

Control knob is arranged on the side of at least side of Intelligent worn device, and main screen curtain Trackpad is arranged on the front of Intelligent worn device;

When Intelligent worn device is in input state, main screen curtain Trackpad receives the touch command of user, and control knob receives the rotation steering order of user;

Touch chip, detection main screen curtain Trackpad obtains touch command, is sent to micro-control unit after touch command being processed;

Control signal detection encoder, the rotating state of detection control knob obtains rotation control signal, and is sent to micro-control unit after being processed by rotation control signal;

Micro-control unit, according to the steering order of the control knob received, and the touch command of the main screen curtain Trackpad received, it is achieved the information input of Intelligent worn device.

Can selection of land, Intelligent worn device is intelligent watch, and main screen curtain Trackpad is arranged on the dial plate of intelligent watch, and control knob is arranged on the sidepiece of dial plate.

The beneficial effects of the utility model are: the technical scheme of the utility model embodiment, owing to being provided with auxiliary Trackpad at least one side of Intelligent worn device and being provided with main screen curtain Trackpad in front, and configure auxiliary Trackpad and input method applies in each layer the first mapping relation of the event of switching and the touch command of auxiliary Trackpad between each control, and the touch event of the different layer switching of configuration, input confirm that touch event, input are deleted the 2nd between touch event and the touch command of main screen curtain Trackpad and mapped relation; Then the first mapping relation and the 2nd mapping relation is utilized, when receiving the touch command of main screen curtain Trackpad or auxiliary Trackpad, it is achieved corresponding information input. Like this, coordinated by the division of labor of main screen curtain Trackpad and auxiliary Trackpad, receive the touch command of user respectively, achieve the touch controllable function by main screen curtain Trackpad to extend, breach the restriction of Intelligent worn device screen size, and avoid and carry out the mishandle problem that easily causes when information inputs by means of only main screen curtain Trackpad, it is to increase user's experience. In addition, also by replacing auxiliary Trackpad for side control knob in the utility model embodiment, above-mentioned useful effect is achieved equally.

Accompanying drawing explanation

Fig. 1 a is the block diagram of a kind of Intelligent worn device of the utility model embodiment;

Fig. 1 b is the use scenes schematic diagram of a kind of Intelligent worn device of the utility model embodiment;

Fig. 2 be the application of the utility model embodiment Intelligent worn device input method initial layer in the schematic diagram of each control switching;

Fig. 3 a to 3d is the schematic diagram applying the input layer that each input type mark control is corresponding in initial layer in the input method shown in Fig. 2;

Fig. 4 is the schematic diagram selecting input character group in the input layer that the English input type mark control shown in Fig. 3 a is corresponding;

Fig. 5 is the schematic diagram selecting single input character in the input layer that the group control of input character shown in Fig. 4 is corresponding;

Fig. 6 is the input content schematic diagram that the utility model embodiment provides;

Fig. 7 is the deletion schematic diagram to the input content shown in Fig. 6 of the utility model embodiment;

Fig. 8 is the principle of work schematic diagram of the auxiliary Trackpad of the utility model embodiment.

Embodiment

Core concept of the present utility model is: less for Intelligent worn device screen size in prior art, the problem of manual information input operation inconvenience, easily mishandle, poor user experience, by arranging auxiliary Trackpad (or control knob) at least one side of Intelligent worn device, and make auxiliary Trackpad (or control knob) share part information input function, coordinate the information input function of main screen curtain Trackpad again, it is achieved the information input of Intelligent worn device. So, easily making a mistake operation when the information solving the Intelligent worn device of small-size screen inputs, clicks, slip etc. operate inconvenient, the problem of poor user experience. In addition, after the technical scheme of application the utility model embodiment, the screen of Intelligent worn device can also keep existing little size design or be designed to less size, thus meet the screen design diversified demand of Intelligent worn device, it is to increase the competitive power of product.

Fig. 1 a is the block diagram of a kind of Intelligent worn device of the utility model embodiment, see Fig. 1 a, in the utility model embodiment, Intelligent worn device 100 comprises: main screen curtain Trackpad 102, auxiliary Trackpad 101, touch chip 103 and micro-control unit 104;

Auxiliary Trackpad 101 is arranged on the side of at least side of Intelligent worn device 100, and main screen curtain Trackpad 102 is arranged on the front of Intelligent worn device 100;

When Intelligent worn device 100 is in input state, auxiliary Trackpad 101 and main screen curtain Trackpad 102, receive the touch command of user respectively;

Touch chip 103, detection main screen curtain Trackpad 102 and auxiliary Trackpad 101, obtain touch command, be sent to micro-control unit 104 after touch command being processed respectively;

Micro-control unit 104, according to the touch command of the auxiliary Trackpad 101 received, and the touch command of the main screen curtain Trackpad 102 received, it is achieved the information input of Intelligent worn device 100.

Fig. 1 b is the use scenes schematic diagram of a kind of Intelligent worn device of the utility model embodiment, composition graphs 1a and Fig. 1 b, and in the present embodiment, Intelligent worn device 100 is intelligent watch. Main screen curtain Trackpad 102 is all connected with touch chip 103 with auxiliary Trackpad 101; Touch chip 103 is connected with micro-control unit 104 by I2C bus; Auxiliary Trackpad 101 comprises: flexible PCB (see Fig. 1 a), flexible PCB is provided with the metal electrode of multiple series connection, is connected with stray capacitance between each metal electrode; Stray capacitance also output pin with touch chip 103 be connected. Intelligent worn device 100 is intelligent watch, flexible PCB is provided with four metal electrodes, after these laminating materials and parts of flexible PCB gluing (plastic component here is polymeric amide PolyamideP, is called for short PA), it is embedded in the sidepiece of the dial plate housing of intelligent watch 100.

In the Intelligent worn device 100 shown in Fig. 1 a and Fig. 1 b, it is provided with main screen curtain Trackpad 102 and auxiliary Trackpad 101 and two Trackpads and jointly it is connected to same touch chip 103, owing to the screen size of existing Intelligent worn device is limited, auxiliary Trackpad is set at side and shares part input function and be equivalent to main screen curtain Trackpad space to extend, the auxiliary Trackpad cooperation of main screen curtain Trackpad and side realizes information input jointly, thus it is little to solve Intelligent worn device screen size in prior art, manual input operation inconvenience, the problem of easy mishandle, optimize user's experience, improve the competitive power of Intelligent worn device.

This kind of Intelligent worn device input method function in the present embodiment to realize process as follows: Intelligent worn device is provided with many application programs, user is when using Intelligent worn device and open some application program, interface of input method will be ejected, the corresponding dummy keyboard of input method application program, monitors program in real-time listening keyboard action by keyboard. User each click action or each sliding action on auxiliary Trackpad on main screen curtain Trackpad can produce touch information by touch chip, and by I2C interface, touch information passed to MCU.

Input method manager (InputMethodManager, be called for short IMM) in include UI control, the user interface UI (UserInterface, UI) of input method follows level structure, and the button position information of each level exists in UI control. When keyboard monitors sequential monitoring to, when having an actuation of keys, the positional information that is triggered is converted into press key message through UI control. Simultaneously, application program (the dialing application program in Intelligent worn device, short message application program etc.) will by IMM apprizing system, these press key messages will pass to Input Method Editor (InputmethodEditor is called for short IME) by input method interface.

After Input Method Editor receives press key message, press key message is calculated by calling logic function, press key message is converted into character information or order message. Character information is sent to input method manager, shows in the application; Order message is sent to input method procedure and carries out changing interface, confirms, returns.

Fig. 2 be the application of the utility model embodiment Intelligent worn device input method initial layer in the schematic diagram of each control switching, see Fig. 2, in the present embodiment, the initial layer of input method application is provided with input hurdle control, input type mark control and control control;

Concrete, input mark control also comprises: English input mark control, input in Chinese mark control, numeral input mark control and symbol input mark control, so that user selects concrete input type.

It should be noted that, the symbol input mark control shown in Fig. 2 is special symbol input type mark control. In addition, initial layer shown in Fig. 2 arranges input hurdle control.

When Intelligent worn device is in initial input state, what first input method application started is initial layer, is provided with the multiple controls shown in Fig. 2 in this initial layer. The slide of auxiliary Trackpad (i.e. side Touch) in response to user being arranged on Intelligent worn device one side, generates sliding touch instruction. With the touch chip that auxiliary Trackpad is connected, the auxiliary Trackpad of detection, obtains the sliding touch instruction on auxiliary Trackpad, is sent to micro-control unit MCU by after this sliding touch instruction process in real time. MCU receives the sliding touch instruction that touch chip sends, and according to the first mapping relation arranged, switching between different input type mark control in the initial layer of input method application. Here the first mapping relation can be: according to the sliding touch instruction of auxiliary Trackpad, it is achieved selection between different control in same input layer, handover event.

See Fig. 2, in the present embodiment, user selects a certain input type mark control by the sliding touch instruction that auxiliary Trackpad inputs. Then, MCU is according to the first mapping relation and receives sliding touch instruction, changes in input method application current layer the user interface display information of the input type mark control selected, with the input type mark pointing out user currently to choose.

In the present embodiment, the display information of the input type mark control that user is selected by MCU is set to highlighted, to highlight, display information can also be set to other forms in other embodiments, this not limited.

See Fig. 2, control control comprises: determines control and returns control; Micro-control unit, according to the 2nd mapping relation and the click touch command of determination control that receives, confirms that the input type mark control that the sliding touch instruction of auxiliary Trackpad is selected triggers successfully, and starts this input type and identify input layer corresponding to control; Or, according to the 2nd mapping relation and the click touch command returning control that receives, exit the initial layer of input method application. Arranging in the initial layer of input method application and determine control (i.e. ok key) and return control (i.e. C key), after have selected input type mark control, main screen curtain Trackpad, in response to the clicking operation of user, generates and clicks touch command. Touch chip detects main screen curtain Trackpad in real time, gets click touch command, is sent to MCU after click touch command being processed.

In the present embodiment, clicking touch command can be determine the click touch command of control or return the click touch command of control, and MCU realizes corresponding operation according to the 2nd mapping relation and concrete click touch command. Here the 2nd mapping relation can be: the input of input method application confirms the mapping relation between the touch event of event or the different layer switching of input method application and main screen curtain Trackpad.

Concrete, when user's clicking operation of main screen curtain Trackpad response, when generating the click touch command determining control, MCU control confirms that the input type selected in current layer mark control triggers successfully, and starts and enter input layer corresponding to this input type mark control. When main screen curtain Trackpad is in response to the clicking operation of user, when generating the click touch command returning control, the current layer of input method application is exited in MCU control.

In other embodiments of the present utility model, the click touch command returning control can also realize the switching (having concrete explanation below) between the different layer of input method application, due to here, it it is the explanation carried out for the initial layer of input method application, so when user returns control in the click of main screen curtain Trackpad, the initial layer of input method application is exited in corresponding being operating as.

Fig. 3 a to 3d is the schematic diagram applying the input layer that each input type mark control is corresponding in initial layer in the input method shown in Fig. 2, wherein, Fig. 3 a represents the input layer that English input mark control is corresponding, Fig. 3 b represents the input layer that input in Chinese mark control is corresponding, the input layer that Fig. 3 c representative digit input mark control is corresponding, Fig. 3 d represents the input layer that special symbol input mark control is corresponding.

By Fig. 3 a to Fig. 3 d it may be seen that to there being multiple input character control in input layer corresponding under each input type mark control, conveniently carry out sliding and select.

Hereinafter, for the process (such as input character " L ") of primary information input content, the function of the Intelligent worn device of the utility model embodiment this kind of structure is specifically described.

See Fig. 2 and Fig. 3 a, after entering the input layer shown in Fig. 2, the sliding touch instruction of auxiliary Trackpad have selected English input mark control, and MCU is by the English input mark highlighted display of control and starts and enters input layer corresponding to English input mark control. Enter into (i.e. input layer shown in Fig. 3 a) after English input mark control correspondence input layer, the slide of auxiliary Trackpad response user, generation sliding touch instruction. MCU, according to the first mapping relation and sliding touch instruction, selects between the multiple input character controls in current layer, switches.

Fig. 4 is the schematic diagram that input character is selected in the input layer that the English input type mark control shown in Fig. 3 a is corresponding, see Fig. 4, auxiliary Trackpad is in response to the slide of user, generate sliding touch instruction, touch chip detects auxiliary Trackpad, obtaining after sliding touch instruction also processes and be sent to MCU, MCU, according to the first mapping relation, selects between different input character control, switches.

The input layer that English input mark control is corresponding comprises: input character control, input hurdle control and control control. Concrete, input character control presents with the form of character group control, that is, in the input layer shown in Fig. 4, each input character control stores a character group, the input character control in highlighted display that such as user currently chooses is provided with one group of character " LMNOP ", under the input layer that each character group control is corresponding, also correspondence arranges layer corresponding to single character control, reduce taking Intelligent worn device screen size with this, reduce the restriction to screen size.

From Fig. 4, Fig. 3, the input method application of the Intelligent worn device in the present embodiment adopts level structure, slide according to auxiliary Trackpad, realize the switching of different control between same layer, realize switching between input method application different layer, input confirmation operation and input deletion operation by the clicking operation of main screen curtain Trackpad. Concrete, realize the selection in same layer by auxiliary Trackpad (i.e. side Touch), it is determined that key ok confirms to enter next layer, and return key C returns a layer; The initial layer of input method application arranges several input types, realizes the switching between different input type by slip side Touch, clicks OK button ok by main screen curtain Trackpad and enters a certain big class (i.e. input type); In each big class, then a point character group control is set; Such as English 26 letters, it is possible to being divided into 4-5 character group control, same, slip side Touch selects corresponding character group control, click OK button ok and confirm; The single character control to be inputted is clicked after entering layer corresponding to this character group control. This kind of level structure input method application and main screen curtain Trackpad, auxiliary Trackpad coordinate scheme, ensure that the screen size of Intelligent worn device can design less, and solve the problem that small-size screen information inputs easy mishandle.

In addition, see Fig. 4, the information input demand that English input identifies and is also provided with capital and small letter toggle control in input layer corresponding to control, punctuation mark control meets user.

See Fig. 4, after user have selected input layer corresponding to the input character control at the character on current layer " LMNOP " place, main screen curtain Trackpad is in response to the clicking operation of user, generate and click touch command, touch chip detects main screen curtain Trackpad in real time, getting this click touch command to go forward side by side and be sent to MCU after row relax, MCU operates accordingly according to the 2nd mapping relation and the click touch command that receives.

Such as, when the click touch command that main screen curtain Trackpad generates is the click touch command determining control (i.e. ok key), MCU confirms that the input character control (i.e. the input character control at LMNOP place) that the sliding touch instruction of auxiliary Trackpad is selected triggers successfully, and starts the input layer that this input character control is corresponding. When the click touch command that main screen curtain Trackpad generates is the click touch command returning control (i.e. C key), the application of MCU control inputs method returns the input layer shown in Fig. 3 a so that input method application is switched to input layer corresponding to input type mark control from the input layer that character group control is corresponding. Namely the click touch command returning control of main screen curtain Trackpad realizes the handover event between the different layer of input method application.

In the present embodiment, clicking ok control for user and go on to say on the main screen curtain Trackpad shown in Fig. 4, MCU confirms that the input character control that the touch command of auxiliary Trackpad is selected triggers successfully, starts and enters input layer corresponding to this input character control.

Fig. 5 is the schematic diagram selecting single character in the input layer that the control of input character shown in Fig. 4 is corresponding; 26 English alphabets are divided into 5 character group by composition graphs 4 and Fig. 5 in the input layer shown in Fig. 4, and slip side Touch switches between each character group of English inputting interface. The character group of the highlighted display in Fig. 4 is choice. Click after slip side Touch to corresponding character group and determine control ok, enter the input layer shown in Fig. 5. After entering the input layer shown in this Fig. 5, click character " L ", it is sent to the character of input frame display input. If not clicking letter, or find that the letter to be inputted currently does not input layer, then slip side Touch returns the layer shown in Fig. 4. After returning the layer shown in Fig. 4, slidably side Touch selects capital and small letter toggle control, and clicks and determine control ok, and input method application will transform uppercase/lowercase pattern, to input corresponding uppercase/lowercase character.

See Fig. 5, with in earlier figures 4 and Fig. 3 a the difference is that, Fig. 5 is that input method applies the input layer of last in an input process, in this input layer, main screen curtain Trackpad, in response to the clicking operation (clicking the control at character " L " place) of user, generates and clicks touch command, and MCU is according to the click touch command of main screen curtain Trackpad, the single input character that user selects is sent to the display of input space, hurdle, so completes the input process of character " L ". Thus only needing the clicking operation being received user by main screen curtain Trackpad, MCU, according to the 2nd mapping relation, confirms that the single character that main screen curtain Trackpad click touch command is selected triggers successfully, and without the need to arranging control control.

It should be noted that, in current layer, if after character has inputted, when continuing other characters of input, auxiliary Trackpad, in response to the slide of user, generates sliding touch instruction, and MCU is according to the sliding touch instruction of the auxiliary Trackpad received and the 3rd mapping relation, return input layer corresponding to character group control (i.e. input layer shown in Fig. 4), the follow-up character group control responding user again and reselecting.

Through said process, the simple and direct input completing character " L " rapidly of Intelligent worn device, is next described the deletion operation of input content.

In the information input process of Intelligent worn device, input content mistake is often occurred to need the scene deleted, at this moment main screen curtain Trackpad is in response to the click touch command of user, and MCU, according to the click touch command received and the 2nd mapping relation, performs the deletion operation of input content.

Fig. 6 is the input content schematic diagram that the utility model embodiment provides, and Fig. 7 is the deletion schematic diagram to the input content shown in Fig. 6.

In the present embodiment, according to the first mapping relation, the touch command of auxiliary Trackpad that receives, and the 2nd mapping relation, the touch command of main screen curtain Trackpad that receives, the information input realizing Intelligent worn device comprises: according to the touch command of main screen curtain Trackpad and the 2nd mapping relation, perform the deletion operation of input content.

Composition graphs 6 and Fig. 7, the input hurdle control of the current layer of input method application shows input content for " Go ", main screen curtain Trackpad receives the click touch command that user clicks input hurdle control, MCU, according to the click touch command of main screen curtain Trackpad and the 2nd mapping relation, starts the layer (i.e. layer shown in Fig. 7) that input content deletion event is corresponding; After entering the layer shown in Fig. 7, the slide of auxiliary Trackpad response user, generate sliding touch instruction, MCU is according to the sliding touch instruction received, control cursor moves along with the sliding touch instruction on auxiliary Trackpad, to select input content to be deleted, when cursor moves to input content to be deleted, the click touch command (namely clicking the touch command deleting control "��") of main screen curtain Trackpad response user, and according to click touch command and the 2nd mapping relation, the input content selected by cursor is deleted. So namely complete the deletion operation of input content.

See Fig. 7, the layer of the input method deletion operation in Fig. 7 is provided with and returns control and delete control, after the deletion completing input content operates, configurable main screen curtain Trackpad clicks, in response to user, the last layer level that the touch command returning control " C " returns input method. In other embodiments of the present utility model, by the sliding touch instruction of auxiliary Trackpad in response to user, and according to the sliding touch instruction preserved in this sliding touch instruction and micro-control unit and the 3rd mapping relation returned between last layer level event, it is achieved return the effect of input method last layer level.

As from the foregoing, relative to phonetic entry method, the scope of application of manual information input is wider, and the technical scheme of the utility model embodiment is outside the advantage possessing manual information input, by arranging auxiliary Trackpad and coordinate main Trackpad, make the information input of Intelligent worn device more rapidly simple and direct compared with the input of existing manual information, solve conventional information and input the mishandle problem caused in the Intelligent worn device of small-size screen, optimize user's experience.

Fig. 8 is the principle of work schematic diagram of the auxiliary Trackpad of the utility model embodiment. See Fig. 8, in the present embodiment, the hardware circuit aspect of Intelligent worn device: be provided with four metal electrodes 82 (merely illustrating 2 metal electrodes in Fig. 8) on flexible PCB FPC, have electric capacity 82 (i.e. electric capacity Cp) to connect between metal electrode. When pointing the 81 auxiliary Trackpad of slip, producing coupling capacity, cause capacitance to change, this electric capacity is parallel to ground by human body, and due to the change of capacitance, the electric current to touch chip receiving end can change along with the change of capacitance; Touch chip carries out signal conversion processes, is sent to micro-control unit MCU by I2C interface after curent change is converted into numerary signal.

In addition, the utility model embodiment still provides the data inputting method of a kind of Intelligent worn device, and the front of Intelligent worn device is provided with main screen curtain Trackpad, and at least one side is provided with auxiliary Trackpad; When Intelligent worn device is in input state, data inputting method comprises:

Utilize auxiliary Trackpad to receive the first touch command of user's input, utilize main screen curtain Trackpad to receive the 2nd touch command of user's input;

Detection main screen curtain Trackpad and auxiliary Trackpad, obtain the first touch command and the 2nd touch command, and exports after the first touch command and the 2nd touch command being processed;

The the first mapping relation switching between the touch event of each control and the first touch command in each layer of input method application is set; And the touch event of the different layer of switching of input method application is set, input confirm that touch event, input delete the 2nd mapping relation between touch event and the 2nd touch command of main screen curtain Trackpad; According to the first mapping relation, the touch command of auxiliary Trackpad that receives, and the 2nd mapping relation, the touch command of main screen curtain Trackpad that receives, it is achieved the information input of Intelligent worn device.

It should be noted that, the data inputting method of this kind of Intelligent worn device in the present embodiment, being the Intelligent worn device that is applicable in previous embodiment, the performing step of the data inputting method of the present embodiment can dress the explanation of environment division referring specifically to aforementioned intelligent, repeats no more here.

In addition, the utility model embodiment mainly matches with main screen curtain Trackpad and auxiliary Trackpad and is combined into the explanation that example carries out, but it is emphasized that, in other embodiments of the present utility model, auxiliary Trackpad can be replaced as control knob, control knob is arranged on the side of at least side of Intelligent worn device, the restriction of the main screen size of Intelligent worn device can be realized breaking through equally, avoid the mishandle problem carrying out causing when information inputs by means of only main screen curtain Trackpad, it is to increase the useful effect of user's experience.

Concrete in other embodiments of the present utility model, in order to realize information input by control knob, also need in Intelligent worn device, arrange the similar parts such as control signal detection transmodulator, for detection and the control signal of control knob is converted to electrical signal and is sent to micro-control unit so that micro-control unit can according to the touch command of the steering order of control knob and main screen curtain Trackpad realize information input. Utilize control knob carry out input control can with reference in previous embodiment to the functional description of auxiliary Trackpad, repeat no more here.

In sum, the technical scheme of the utility model embodiment, owing to being provided with the main screen curtain Trackpad in front and being arranged on the auxiliary Trackpad (or control knob) of at least one side, according to the touch command receiving main screen curtain Trackpad or auxiliary Trackpad, it is achieved corresponding information input. sharing out the work and help one another by main screen curtain Trackpad and auxiliary Trackpad (or control knob) like this, receive the touch command of user respectively, the touch command selecting control in the same layer that user applies in input method is such as received by auxiliary Trackpad, and receive user by the touch command of main screen curtain Trackpad and the control selected is confirmed to obtain touch command, the touch controllable function of main screen curtain Trackpad has been extended, breach the restriction of the main screen size of Intelligent worn device, and avoid the mishandle problem carrying out causing when information inputs by means of only main screen curtain Trackpad, improve user's experience.

The foregoing is only better embodiment of the present utility model, it is not intended to limit protection domain of the present utility model. All do within spirit of the present utility model and principle any amendment, equivalent replacement, improvement etc., be all included in protection domain of the present utility model.

Claims (8)

1. an Intelligent worn device, it is characterised in that, this Intelligent worn device comprises: main screen curtain Trackpad, auxiliary Trackpad, touch chip and micro-control unit;

Described auxiliary Trackpad is arranged on the side of at least side of described Intelligent worn device, and described main screen curtain Trackpad is arranged on the front of described Intelligent worn device;

When described Intelligent worn device is in input state, described auxiliary Trackpad and described main screen curtain Trackpad, receive the touch command of user respectively;

Described touch chip, detects described main screen curtain Trackpad and described auxiliary Trackpad, obtains described touch command, be sent to described micro-control unit after described touch command being processed respectively;

Described micro-control unit, according to the touch command of the described auxiliary Trackpad received, and the touch command of the described main screen curtain Trackpad received, it is achieved the information input of described Intelligent worn device.

2. Intelligent worn device as claimed in claim 1, it is characterised in that,

Described auxiliary Trackpad, in response to the slide of user, generates sliding touch instruction;

Described main screen curtain Trackpad, in response to the clicking operation of user, generates and clicks touch command.

3. Intelligent worn device as claimed in claim 1 or 2, it is characterised in that, described main screen curtain Trackpad is all connected with described touch chip with described auxiliary Trackpad;

Described touch chip is connected with described micro-control unit by I2C bus.

4. Intelligent worn device as claimed in claim 3, it is characterised in that, described auxiliary Trackpad comprises: flexible PCB, and described flexible PCB is provided with the metal electrode of multiple series connection, is connected with stray capacitance between each metal electrode;

Described stray capacitance also output pin with described touch chip be connected.

5. Intelligent worn device as claimed in claim 3, it is characterised in that, described Intelligent worn device is intelligent watch; Described main screen curtain Trackpad is arranged on the dial plate of intelligent watch, and described auxiliary Trackpad is arranged on the sidepiece of dial plate.

6. Intelligent worn device as claimed in claim 3, it is characterised in that,

Described flexible PCB is provided with four metal electrodes, after these laminating materials and parts of flexible PCB gluing, is embedded in the sidepiece of the dial plate housing of described intelligent watch.

7. an Intelligent worn device, it is characterised in that, this Intelligent worn device comprises: main screen curtain Trackpad, control knob, control signal detection encoder, touch chip and micro-control unit;

Described control knob is arranged on the side of at least side of Intelligent worn device, and described main screen curtain Trackpad is arranged on the front of described Intelligent worn device;

When described Intelligent worn device is in input state, described main screen curtain Trackpad receives the touch command of user, and described control knob receives the rotation steering order of user;

Described touch chip, detects described main screen curtain Trackpad and obtains described touch command, be sent to described micro-control unit after described touch command being processed;

Described control signal detection encoder, the rotating state detecting described control knob obtains rotation control signal, and is sent to described micro-control unit after being processed by described rotation control signal;

Described micro-control unit, according to the steering order of the described control knob received, and the touch command of the described main screen curtain Trackpad received, it is achieved the information input of described Intelligent worn device.

8. Intelligent worn device as claimed in claim 7, it is characterised in that, described Intelligent worn device is intelligent watch, and described main screen curtain Trackpad is arranged on the dial plate of intelligent watch, and described control knob is arranged on the sidepiece of dial plate.