WO2017016262A1

WO2017016262A1 - Method for controlling smart watch, and smart watch

Info

Publication number: WO2017016262A1
Application number: PCT/CN2016/081083
Authority: WO
Inventors: 郭凌; 谭筱; 万世铭; 刘鹏程
Original assignee: 广东欧珀移动通信有限公司
Priority date: 2015-07-28
Filing date: 2016-05-05
Publication date: 2017-02-02
Also published as: CN105116999B; CN105116999A

Abstract

A method for controlling a smart watch, a smart watch and a storage medium. A side face of the smart watch is provided with a crown (601), and a concave hollow structure is formed on the side face of the crown (601). The middle of the hollow structure is provided with one end articulated to the bottom of the hollow structure and the other end flush with an operation rod (602) of the side face of the crown (601). The method for controlling a smart watch comprises: detecting an operation type for the operation rod (602) (101); in response to the operation type, generating a control instruction corresponding to the operation type (102); and performing a display operation of a touch display screen corresponding to the control instruction (103). The smart watch comprises a display operation execution component, a control instruction generation component and an operation type detection component. The present invention realizes control of a smart watch.

Description

Control method of smart watch and smart watch

Technical field

The invention relates to the technical field of human-computer interaction, in particular to a control method of a smart watch and a smart watch.

Background technique

At present, the application of smart watches has been very extensive. In the practical application of smart watches, in order to better enhance the experience of human-computer interaction, a touch display is usually integrated on a smart watch. However, it has been found in practice that when the user directly touches the display screen through the finger, the touch display screen may easily cause some of its display area to be blocked by the finger because of its small size, so that the user cannot visually view the partially blocked display area. , thereby reducing the experience of human-computer interaction.

technical problem

The embodiment of the invention discloses a control method of a smart watch and a smart watch, which can prevent a part of the display area of the touch display screen from being blocked by the finger, so that the user can intuitively view all the display areas of the touch display screen.

Technical solution

A first aspect of the embodiments of the present invention discloses a control method for a smart watch. The side of the smart watch is provided with a crown, and the side surface of the crown is formed with a concave hollow structure, and the hollow structure is provided with a middle The operating rod with the bottom of the hollow structure at one end and the other end flush with the side of the crown includes:

Detecting the type of operation of the operating lever;

Responding to the operation type, generating a control instruction corresponding to the operation type;

A touch display display operation corresponding to the control command is performed.

In the first aspect of the embodiment of the present invention, after detecting the type of operation of the operating lever, the method further includes:

Detecting whether the acceleration of the smart watch is less than a preset threshold, and if so, performing the step of responding to the operation type to generate a control instruction corresponding to the operation type.

In the first aspect of the embodiment of the present invention, after detecting that the acceleration of the smart watch is less than a preset threshold, the method further includes:

Collecting input voiceprint information;

Comparing whether the voiceprint information matches the preset voiceprint information, and if yes, performing the step of responding to the operation type to generate a control instruction corresponding to the operation type.

In the first aspect of the embodiment of the present invention, after collecting the input voiceprint information, and before comparing whether the voiceprint information and the preset voiceprint information match, the method further includes:

Sending a preset voiceprint information acquisition request to a designated contact in the address book of the smart watch;

Receiving preset voiceprint information sent by the specified contact.

Sending a preset voiceprint information acquisition request to a designated relationship user in the social application in which the smart watch is running;

Receiving preset voiceprint information sent by the specified relationship user.

Sending a reference voiceprint information acquisition request to a designated contact in the address book of the smart watch; and sending a reference voiceprint information acquisition request to a designated relationship user in the social application in which the smart watch is running;

Receiving reference voiceprint information sent by the specified contact, and receiving reference voiceprint information sent by the specified relationship user;

Matching whether the reference voiceprint information sent by the specified contact matches the reference voiceprint information sent by the specified relationship user, and if the same, the reference voiceprint information is used as the preset voiceprint information.

A second aspect of the embodiment of the present invention discloses a smart watch, wherein a side surface of the smart watch is provided with a crown, a side surface of the crown is formed with a concave hollow structure, and an end hinged portion is disposed in the middle of the hollow structure. The bottom of the hollow structure, while the other end is flush with the operating lever on the side of the crown, the smart watch includes:

An operation type detecting unit for detecting a type of operation of the operating lever;

a control instruction generating unit, configured to generate a control instruction corresponding to the operation type in response to the operation type;

And displaying an operation execution unit for performing a touch screen display operation corresponding to the control instruction.

In a second aspect of the embodiments of the present invention, the smart watch further includes:

An acceleration detecting unit, configured to detect whether an acceleration of the smart watch is less than a preset threshold after the operation type detecting component detects an operation type of the operating lever, and if yes, triggering the control instruction generating portion to perform the Responsive to the operation type, the step of generating a control instruction corresponding to the operation type.

a voiceprint information collecting component, configured to collect the input voiceprint information after the acceleration detecting component detects that the acceleration of the smart watch is less than a preset threshold;

a first voiceprint matching component, configured to compare whether the voiceprint information matches the preset voiceprint information, and if yes, triggering the control instruction generating component to perform the responding to the operation type, generating the operation type corresponding The steps of the control instructions.

a first communication component, configured to: after the voiceprint information collecting component collects the input voiceprint information, send a preset voiceprint information acquisition request to the designated contact in the address book of the smart watch, and receive the designation The preset voiceprint information sent by the contact is provided to the first voiceprint matching component.

a second communication component, configured to: after the voiceprint information collecting component collects the input voiceprint information, send a preset voiceprint information acquisition request to the designated relationship user in the social application running by the smart watch, and receive the The preset voiceprint information sent by the related user is specified and provided to the first voiceprint matching component.

a third communication component, configured to send a reference voiceprint information acquisition request to a designated contact in the address book of the smart watch after the voiceprint information collecting component collects the input voiceprint information; The designated relationship user in the running social application sends a reference voiceprint information acquisition request; receives reference voiceprint information sent by the designated contact, and receives reference voiceprint information sent by the specified relationship user;

a second voiceprint matching component, configured to match whether the reference voiceprint information sent by the specified contact matches the reference voiceprint information sent by the specified relationship user, and if the same, use the reference voiceprint information as a preset sound Pattern information is provided to the first voiceprint matching component.

In a second aspect of the embodiments of the present invention, the hollow structure is a conical hollow structure.

Beneficial effect

In the embodiment of the present invention, the side surface of the smart watch may be provided with a crown, and the side surface of the crown may be formed with a concave hollow structure. Further, the middle of the hollow structure may be provided with a bottom end hinged hollow structure, and the other end On the basis of the operation lever flushed to the side of the crown, on the basis of this, when the operation type of the operation lever is detected, a control command corresponding to the operation type can be generated, and a touch display display operation corresponding to the control instruction is executed. It can be seen that, by implementing the embodiment of the present invention, the touch display display operation can be controlled by operating the operation bar without directly operating the touch display screen by using a finger, so that part of the display area of the touch display screen can be prevented from being blocked by the finger, so that the user The entire display area of the touch display can be visually viewed, thereby enhancing the experience of human-computer interaction.

DRAWINGS

1 is a schematic flow chart of a method for controlling a smart watch disclosed in an embodiment of the present invention;

2 is a schematic flow chart of another method for controlling a smart watch according to an embodiment of the present invention;

3 is a schematic flow chart of another method for controlling a smart watch disclosed in an embodiment of the present invention;

4 is a schematic flow chart of another method for controlling a smart watch disclosed in an embodiment of the present invention;

FIG. 5 is a schematic flow chart of another method for controlling a smart watch according to an embodiment of the present invention; FIG.

6 is a schematic structural diagram of a smart watch disclosed in an embodiment of the present invention;

7 is a schematic structural diagram of another smart watch disclosed in an embodiment of the present invention;

FIG. 8 is a schematic structural diagram of another smart watch disclosed in an embodiment of the present invention; FIG.

9 is a schematic structural diagram of another smart watch disclosed in an embodiment of the present invention;

FIG. 10 is a schematic structural diagram of another smart watch disclosed in an embodiment of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION

The technical solutions in the embodiments of the present invention are clearly and completely described in the following with reference to the accompanying drawings in the embodiments of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, but not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.

The terms 'first', 'second', 'third' in the specification and claims of the present invention and the above figures Fourth ' Etc. (if present) is used to distinguish similar objects and is not necessarily used to describe a particular order or order. It is to be understood that the data so used may be interchanged as appropriate, such that the embodiments of the invention described herein can be implemented, for example, in a sequence other than those illustrated or described herein. In addition, the term 'Include ' and ' have ' And any variations thereof are intended to cover non-exclusive inclusions. For example, a process, method, system, product, or device that comprises a series of steps or units is not necessarily limited to those steps or units that are clearly listed, but may include Other steps or units not explicitly listed or inherent to these processes, methods, products or equipment

Embodiments of the invention disclose a control method of a smart watch and a smart watch It is possible to prevent a part of the display area of the touch display screen from being blocked by the finger, so that the user can intuitively view the entire display area of the touch display screen. The details are described below separately.

Please refer to FIG. 1. FIG. 1 is a schematic flowchart diagram of a method for controlling a smart watch according to an embodiment of the present invention. In Figure 1 In the control method shown, the side of the smart watch may be provided with a crown, and the side of the crown may be formed with a concave hollow structure, and the bottom of the hollow structure may be provided with a bottom end hinged hollow structure, and the other end is flush The lever on the side of the crown. As shown As shown in Figure 1, the control method can include the following steps.

101. The smart watch detects the type of operation of the joystick.

In the embodiment of the invention, the smart watch may be a smart watch whose surface is provided with a touch display screen.

In the embodiment of the present invention, the smart watch can detect the type of operation of the operating lever by the operation type detecting means of a sensor or the like.

102. The smart watch responds to the operation type and generates a control instruction corresponding to the operation type.

In the embodiment of the present invention, the smart watch may generate a control instruction corresponding to the operation type by responding to the operation type by a control instruction generating component such as a processor.

103. The smart watch performs a touch screen display operation corresponding to the control instruction.

In the embodiment of the present invention, the smart watch can display the touch display screen display operation corresponding to the control command by displaying the operation execution unit by the controller or the like.

In the embodiment of the present invention, the correspondence between the operation type of the operation lever and the control instruction can be referred to Table 1, that is,

Table 1 Correspondence between operation type and control instructions

向前摇杆 Forward rocker	向上滚动 \ 切换到下一屏 \ 进入退出 \ 隐藏菜单操作 \tab 操作 \ 控制鼠标 Scroll up \ Switch to the next screen \ Enter Exit \ Hide menu action \tab Action \ Control mouse
向后摇杆 Rear rocker	向下滚动 \ 切换到上一屏 \ 进入退出 \ 隐藏菜单操作 \tab 操作 \ 控制鼠标 Scroll down \ Switch to the previous screen \ Enter exit \ Hide menu action \tab action \ Control mouse
向下摇杆 Down rocker	向右滚动 \ 切换到左一屏 \ 进入退出 \ 隐藏菜单操作 \tab 操作 \ 控制鼠标 Scroll right \ Switch to the left screen \ Enter exit \ Hide menu action \tab action \ Control mouse
向上摇杆 Upward rocker	向左滚动 \ 切换到右一屏 \ 进入退出 \ 隐藏菜单操作 \tab 操作 \ 控制鼠标 Scroll left \ Switch to the right screen \ Enter exit \ Hide menu action \tab action \ Control mouse
前后上下推杆保持 Front and rear push rods remain	进入退出 \ 快速滚动 \ 快速切换 \ 隐藏菜单操作 \ 快速 tab 操作 \ 快速控制鼠标 Enter Exit \ Quick Scroll \ Quick Switch \ Hide Menu Action \ Quick Tab Action \ Quick Control Mouse
旋转摇杆 Rotating rocker	进入退出 \ 隐藏菜单 \ 中心点回到屏幕中央 \tab 操作 \ 屏幕放大缩小 \ 亮屏熄屏 \ 控制鼠标 Enter Exit \ Hide menu \ Center point back to the center of the screen \tab operation \ Screen zoom out \ Bright screen off screen \ Control mouse
快速摇杆两下（方向可不同） Quick rocker twice (direction can be different)	进入退出 \ 隐藏菜单 \ 中心点回到屏幕中央 \ 屏幕放大缩小 \ 亮屏熄屏 \ 快捷进入退出特定应用 \ 控制鼠标 Enter Exit \ Hide menu \ Center point back to the center of the screen \ Screen zoom out \ Bright screen off screen \ Quick access to exit specific application \ Control mouse
特定推杆轨迹 Specific putter track	隐藏菜单 \ 中心点回到屏幕中央 \ 屏幕放大缩小 \ 亮屏熄屏 \ 快捷进入退出应用 \ 进度条 Hide menu \ Center point back to the center of the screen \ Screen zoom out \ Bright screen off screen \ Quick access to exit application \ Progress bar
表冠旋转 Crown rotation	向上向下滚动 \ 切换上下屏 \ 进度条 \ 屏幕放大缩小 \ 进入退出 \tab 操作 Scroll up and down \ switch up and down screen \ progress bar \ screen zoom out \ enter exit \tab operation
表冠按压 \ 按键 Crown press \ button	亮屏熄屏 \ 进入退出 \ 快捷进入退出特定应用 \ 中心点回到屏幕中央 \ 隐藏菜单 Bright screen off screen \ Enter and exit \ Quick access to exit specific application \ Center point back to the center of the screen \ Hide menu

For example, when the smart watch detects that the operation type of the joystick is the forward joystick, the smart watch can generate an upward scrolling \ switch to the next screen. \ Enter and exit \ Hide menu operation \tab operation \ Control any one of the mouse control commands and perform any one of the touch display display operations corresponding to the control commands. For example, the touch display display operation corresponding to the upward scroll control command is a touch display display scrolling up or the like. For another example, the touch display screen corresponding to the exit instruction indicates that the touch screen is displayed to exit an application.

In the embodiments of the present invention, the above-mentioned left, right, up, and down orientation terms are merely relative concepts or referenced to the normal use state of the smart watch, and should not be considered as limiting.

Visible, implementation of Figure 1 The method described can realize the control touch screen display operation by operating the operation bar without directly operating the touch display screen with a finger, so that part of the display area of the touch display screen can be prevented from being blocked by the finger, so that the user can intuitively Watch the entire display area of the touch display to enhance the experience of human-computer interaction.

Please refer to FIG. 2. FIG. 2 is a schematic flowchart diagram of another method for controlling a smart watch according to an embodiment of the present invention. In Figure 2 In the control method shown, the side of the smart watch may be provided with a crown, and the side of the crown may be formed with a concave hollow structure, and the bottom of the hollow structure may be provided with a bottom end hinged hollow structure, and the other end is flush The lever on the side of the crown. As shown As shown in 2, the control method can include the following steps.

201. The smart watch detects the type of operation of the joystick.

202. The smart watch detects whether the acceleration of the smart watch is less than a preset threshold, and if yes, step 203 is performed. If no, the prompt acceleration is too large, the process ends.

In the embodiment of the invention, the smart watch can detect that the acceleration of the smart watch is less than a preset threshold by an acceleration detecting component such as an acceleration sensor.

In the embodiment of the present invention, when the smart watch detects that the acceleration of the smart watch is greater than or equal to the preset threshold, the smart watch may consider that the operation type of the operation lever is that the smart watch is mis-operated during rapid movement or rapid swaying. At the same time, the smart watch can indicate that the acceleration is too large and end the process, thereby improving the accuracy of the smart watch controlling the touch display display operation.

203. The smart watch collects the input voiceprint information.

In the embodiment of the invention, the smart watch can collect the input voiceprint information through a voiceprint information collecting component such as a microphone.

204. The smart watch compares the input voiceprint information with the preset voiceprint information, and if yes, step 205 is performed. If there is no match, the voiceprint information prompted to input does not match the preset voiceprint information, and the process ends.

In the embodiment of the present invention, the smart watch can compare whether the input voiceprint information matches the preset voiceprint information by a voiceprint matching component such as a processor.

In the embodiment of the present invention, the above steps 203 to 204 are adopted. It can improve the safety of the smart watch to control the display operation of the touch screen.

205. The smart watch responds to the operation type and generates a control instruction corresponding to the operation type.

206. The smart watch performs a touch display display operation corresponding to the control instruction.

In the embodiment of the present invention, the correspondence between the operation type of the operating lever and the control command can be referred to Table 1, and is not repeated here.

Visible, implementation of Figure 2 The method described can realize the control touch screen display operation by operating the operation bar without directly operating the touch display screen with a finger, so that part of the display area of the touch display screen can be prevented from being blocked by the finger, so that the user can intuitively Watch the entire display area of the touch display to enhance the experience of human-computer interaction. Moreover, the implementation map 2 The method described can also improve the accuracy of the smart watch control touch display display operation, and improve the security of the smart watch control touch display display operation.

Please refer to FIG. 3. FIG. 3 is a schematic flowchart diagram of another method for controlling a smart watch according to an embodiment of the present invention. In Figure 3 In the control method shown, the side of the smart watch may be provided with a crown, and the side of the crown may be formed with a concave hollow structure, and the bottom of the hollow structure may be provided with a bottom end hinged hollow structure, and the other end is flush The lever on the side of the crown. As shown As shown in 3, the control method can include the following steps.

301. The smart watch detects the type of operation of the joystick.

302. The smart watch detects whether the acceleration of the smart watch is less than a preset threshold. If yes, go to step 303. If no, the prompt acceleration is too large, the process ends.

In the embodiment of the present invention, the smart watch can detect that the acceleration of the smart watch is less than a preset threshold by using an acceleration detecting component such as an acceleration sensor.

303. The smart watch collects the input voiceprint information.

304 The smart watch sends a preset voiceprint information acquisition request to the designated contact in the smart phone's address book, and receives the preset voiceprint information sent by the designated contact.

In the embodiment of the present invention, through the above steps 304 The smart watch does not need to store preset voiceprint information in advance, thereby reducing the occupation of the storage space of the smart watch. Moreover, since the preset voiceprint information sent by the designated contact in response to the preset voiceprint information acquisition request is random, the security of the smart watch control touch screen display operation can be further improved.

305. The smart watch compares the input voiceprint information with the preset voiceprint information. If yes, go to step 306. If there is no match, the voiceprint information prompted to input does not match the preset voiceprint information, and the process ends.

In the embodiment of the present invention, the above steps 303 to 305 are adopted. It can improve the safety of the smart watch to control the display operation of the touch screen.

306. The smart watch responds to the operation type and generates a control instruction corresponding to the operation type.

307. The smart watch performs a touch screen display operation corresponding to the control command.

It can be seen that the implementation of Figure 3 The method described can realize the control touch screen display operation by operating the operation bar without directly operating the touch display screen with a finger, so that part of the display area of the touch display screen can be prevented from being blocked by the finger, so that the user can intuitively Watch the entire display area of the touch display to enhance the experience of human-computer interaction. Moreover, the implementation map 3 The method described can also improve the accuracy of the smart watch control touch display display operation, and improve the security of the smart watch control touch display display operation.

Please refer to FIG. 4. FIG. 4 is a schematic flowchart diagram of another method for controlling a smart watch according to an embodiment of the present invention. In Figure 4 In the control method shown, the side of the smart watch may be provided with a crown, and the side of the crown may be formed with a concave hollow structure, and the bottom of the hollow structure may be provided with a bottom end hinged hollow structure, and the other end is flush The lever on the side of the crown. As shown As shown in FIG. 4, the control method may include the following steps.

401. The smart watch detects the type of operation of the joystick.

402. The smart watch detects whether the acceleration of the smart watch is less than a preset threshold, and if yes, step 403 If no, the prompt acceleration is too large, the process ends.

403. The smart watch collects the input voiceprint information.

404 The smart watch sends a preset voiceprint information acquisition request to the designated relationship user in the social application in which the smart watch is running, and receives the preset voiceprint information sent by the specified relationship user.

In the embodiment of the present invention, the above step 404 is adopted. The smart watch does not need to store preset voiceprint information in advance, thereby reducing the occupation of the storage space of the smart watch. Moreover, since the preset voiceprint information sent by the designated contact in response to the preset voiceprint information acquisition request is random, the security of the smart watch control touch screen display operation can be further improved.

405. The smart watch compares the input voiceprint information with the preset voiceprint information. If yes, go to step 406. If there is no match, the voiceprint information prompted to input does not match the preset voiceprint information, and the process ends.

In the embodiment of the present invention, the above steps 403 to 405 are adopted. It can improve the safety of the smart watch to control the display operation of the touch screen.

406. The smart watch responds to the operation type and generates a control instruction corresponding to the operation type.

407. The smart watch performs a touch screen display operation corresponding to the control instruction.

Visible, implementation of Figure 4 The method described can realize the control touch screen display operation by operating the operation bar without directly operating the touch display screen with a finger, so that part of the display area of the touch display screen can be prevented from being blocked by the finger, so that the user can intuitively Watch the entire display area of the touch display to enhance the experience of human-computer interaction. Moreover, the implementation map 4 The method described can also improve the accuracy of the smart watch control touch display display operation, and improve the security of the smart watch control touch display display operation.

Please refer to FIG. 5. FIG. 5 is a schematic flowchart diagram of another method for controlling a smart watch according to an embodiment of the present invention. In Figure 5 In the control method shown, the side of the smart watch may be provided with a crown, and the side of the crown may be formed with a concave hollow structure, and the bottom of the hollow structure may be provided with a bottom end hinged hollow structure, and the other end is flush The lever on the side of the crown. As shown As shown in FIG. 5, the control method may include the following steps.

501. The smart watch detects the type of operation of the joystick.

502. The smart watch detects whether the acceleration of the smart watch is less than a preset threshold. If yes, go to step 503. If no, the prompt acceleration is too large, the process ends.

503. The smart watch collects the input voiceprint information.

504 The smart watch sends a reference voiceprint information acquisition request to the designated contact in the address book of the smart watch; sends a reference voiceprint information acquisition request to the designated relationship user in the social application running the smart watch; receives the reference sent by the designated contact Voiceprint information, and reference voiceprint information sent by the user receiving the specified relationship; matching whether the reference voiceprint information sent by the specified contact matches the reference voiceprint information sent by the specified relationship user, and if the same, the reference voiceprint information is used as a preset Voiceprint information.

In the embodiment of the present invention, the smart watch can send a reference voiceprint information acquisition request to a designated contact in the address book of the smart watch through a communication component such as a wireless communication module or a wireless radio frequency module, and specify to the social application that the smart watch is running. The relational user sends a reference voiceprint information acquisition request, and receives the reference voiceprint information sent by the designated contact, and receives the reference voiceprint information sent by the specified relationship user; and matches the designated contact by the voiceprint matching component such as a processor. Whether the reference voiceprint information matches the reference voiceprint information sent by the specified relationship user, if the same, the reference voiceprint information is used as the preset voiceprint information.

In the embodiment of the present invention, the above step 504 is adopted. The smart watch does not need to store preset voiceprint information in advance, thereby reducing the occupation of the storage space of the smart watch. Moreover, since the acquisition of the preset voiceprint information is random, the security of the smart watch control touch screen display operation can be improved later.

505. The smart watch compares the input voiceprint information with the preset voiceprint information. If yes, go to step 506. If there is no match, the voiceprint information prompted to input does not match the preset voiceprint information, and the process ends.

In the embodiment of the present invention, the above steps 503 to 505 are adopted. It can improve the safety of the smart watch to control the display operation of the touch screen.

506. The smart watch responds to the operation type and generates a control instruction corresponding to the operation type.

507. The smart watch performs a touch display display operation corresponding to the control command.

Visible, implementation of Figure 5 The method described can realize the control touch screen display operation by operating the operation bar without directly operating the touch display screen with a finger, so that part of the display area of the touch display screen can be prevented from being blocked by the finger, so that the user can intuitively Watch the entire display area of the touch display to enhance the experience of human-computer interaction. Moreover, the implementation map 5 The method described can also improve the accuracy of the smart watch control touch display display operation, and improve the security of the smart watch control touch display display operation.

Please refer to FIG. 6. FIG. 6 is a schematic structural diagram of a smart watch disclosed in an embodiment of the present invention. Figure 6 As shown, the side of the smart watch can be provided with a crown 601, crown 601 The side surface may be formed with a concave hollow structure, and the middle of the hollow structure may be provided with a bottom portion of the hinged hollow structure at one end, and the other end is flush with the operation rod 602 of the side of the crown, optionally, as shown in FIG. As shown, the hollow structure can be a conical hollow structure. Among them, the smart watch can also include:

An operation type detecting unit 603 for detecting an operation type of the operating lever 602;

a control instruction generating unit 604, configured to generate a control instruction corresponding to the operation type in response to the operation type;

The display operation executing unit 605 is configured to execute a touch screen display operation corresponding to the control instruction.

Please refer to FIG. 7 , which is a schematic structural diagram of another smart watch disclosed in the embodiment of the present invention. Among them, Figure 7 The smart watch shown is optimized by the smart watch shown in Figure 6. Compared with the smart watch shown in Fig. 6, the smart watch shown in Fig. 7 can also include:

An acceleration detecting unit 606 for operating the type detecting unit 603 After detecting the type of operation of the operating lever, detecting whether the acceleration of the smart watch is less than a preset threshold, and if so, triggering the control command generating portion 604 The step of generating the above-mentioned response operation type and generating a control instruction corresponding to the operation type.

Optionally, the smart watch shown in FIG. 7 may further include:

a voiceprint information collecting unit 607 for use in the acceleration detecting unit 606 After detecting that the acceleration of the smart watch is less than a preset threshold, collecting the input voiceprint information;

First voiceprint matching component 608 For comparing whether the input voiceprint information matches the preset voiceprint information, if it matches, the trigger control command generating component 604 performs the above-mentioned response operation type, and generates a control command corresponding to the operation type.

Accordingly, the control command generating unit 604 can respond only to the acceleration detecting unit 606 Triggering, performing the above-mentioned response operation type, generating a control instruction corresponding to the operation type; or simultaneously responding to the acceleration detecting component 606 and the first voiceprint matching component 608 The triggering executes the above-mentioned response operation type, and generates a control instruction corresponding to the operation type.

Please refer to FIG. 8 together. FIG. 8 is a schematic structural diagram of another smart watch disclosed in the embodiment of the present invention. Among them, Figure 8 The smart watch shown is optimized by the smart watch shown in Figure 7. Compared with the smart watch shown in Fig. 7, the smart watch shown in Fig. 8 can also include:

a first communication component 609 for use in the voiceprint information collection component 607 After the input voiceprint information is collected, the preset voiceprint information acquisition request is sent to the designated contact in the address book of the smart watch, and the preset voiceprint information sent by the designated contact is received, and is provided to the first voiceprint matching component. 608 .

Please refer to FIG. 9 together. FIG. 9 is a schematic structural diagram of another smart watch disclosed in the embodiment of the present invention. Among them, Figure 9 The smart watch shown is optimized by the smart watch shown in Figure 7. Compared with the smart watch shown in Fig. 7, the smart watch shown in Fig. 9 can also include:

a second communication component 610 for use in the voiceprint information collection component 607 After the input voiceprint information is collected, the preset voiceprint information acquisition request is sent to the designated relationship user in the social application that the smart watch is running, and the preset voiceprint information sent by the specified relationship user is received, and is provided to the first voiceprint matching. component 608.

Please refer to FIG. 10 together. FIG. 10 is a schematic structural diagram of another smart watch disclosed in the embodiment of the present invention. Among them, Figure 10 The smart watch shown is optimized by the smart watch shown in Figure 7. Compared with the smart watch shown in Figure 7, the smart watch shown in Figure 10 can also include:

a third communication component 611 for use in the voiceprint information collection component 607 After collecting the input voiceprint information, sending a reference voiceprint information acquisition request to the designated contact in the smart phone's address book; sending a reference voiceprint information acquisition request to the designated relationship user in the social application running the smart watch; receiving the designation The reference voiceprint information sent by the contact, and the reference voiceprint information sent by the user receiving the specified relationship;

Second voiceprint matching component 612 And matching whether the reference voiceprint information sent by the specified contact matches the reference voiceprint information sent by the specified relationship user, and if the same, the reference voiceprint information is provided as the preset voiceprint information to the first voiceprint matching component 608. .

In the embodiment of the present invention, the first communication component 609, the second communication component 610, and the third communication component 611 It can be a wireless communication module, a radio frequency module, and the like, which are not limited in the embodiment of the present invention.

It can be seen that the implementation of Figure 6 ~ Figure 10 The described smart watch can control the touch display display operation by operating the operating lever without directly touching the touch display screen with a finger, thereby avoiding that part of the display area of the touch display screen is blocked by the finger, so that the user can intuitively The entire display area of the touch display screen is viewed, so that the experience of human-computer interaction can be improved. Moreover, the implementation map 6~ The smart watch described in Figure 10 can also improve the accuracy of the smart watch control touch display display operation, and improve the security of the smart watch control touch display display operation.

The embodiment of the invention also has the following features:

1 The smart watch has a crown. The side of the crown is a recessed conical hollow. The middle of the hollow is the lever that is flush with the side of the crown. Similar to the operating lever of the remote control aircraft, it can be dialed freely in the conical hollow. Move and shake continuously.

2, the crown can rotate to control the zooming and zooming of the display interface of the smart watch.

3 The corresponding direction of the toggle direction of the operation lever is the same as the movement direction of the display screen: if the crown is on the right side of the display body, the upper and lower slide directions of the display screen correspond to the up and down direction of the operation lever, and if the front is forward, the display screen slides upward, or upward. Pull out the status bar. The same reason is to slide down or pull down the status bar. The status bar can be a full screen or a partial screen. On the contrary, the crown is on the left side of the watch body, and the sliding direction of the display screen is up, down, left, and right. The joystick can be moved in any direction on a two-dimensional plane, and the display screen moves accordingly.

4 The operation lever on the crown can control the screen to continuously slide or slide one screen unit, and the speed of the control lever corresponds to the speed of the screen sliding to provide a good operating experience.

5 The crown can respond to the button operations of the body, and can distinguish between click and double click, to enter the application and exit the application, or to call up the hidden menu.

One of ordinary skill in the art can understand that all or part of the various methods of the above embodiments can be completed by a program to instruct related hardware, the program can be stored in a computer readable storage medium, and the storage medium includes read only Memory Read-Only Memory (ROM), Random Access Memory (RAM), Programmable Read Only Memory ( Programmable Read-only Memory (PROM), Erasable Programmable Read Only Memory (EPROM), One-time Programmable Read-Only Memory ( OTPROM), Electrically-Erasable Programmable Read-Only Memory (Operated) EEPROM), CD-ROM (Compact Disc Read-Only Memory, CD-ROM) Or other optical disc storage, disk storage, magnetic tape storage, or any other medium readable by a computer that can be used to carry or store data.

The control method of the smart watch and the smart watch disclosed in the embodiment of the present invention are described in detail. The principle and the embodiment of the present invention are described in the following. The description of the above embodiment is only used to help understanding. The method of the present invention and its core idea; at the same time, for those skilled in the art, according to the idea of the present invention, there will be changes in the specific implementation manner and the scope of application. Understood as a limitation of the present invention .

Claims

A control method for a smart watch, characterized in that a side surface of the smart watch is provided with a crown, a side surface of the crown is formed with a concave hollow structure, and an end of the hollow structure is provided with one end hinged to the hollow The bottom of the structure, while the other end is flush with the operating lever on the side of the crown, the method includes:

Detecting the type of operation of the operating lever;

Responding to the operation type, generating a control instruction corresponding to the operation type;

A touch display display operation corresponding to the control command is performed.
The control method according to claim 1, wherein after detecting the type of operation of the operating lever, the method further comprises:

Detecting whether the acceleration of the smart watch is less than a preset threshold, and if so, performing the step of responding to the operation type to generate a control instruction corresponding to the operation type.
According to claim 2 The control method further includes: after detecting that the acceleration of the smart watch is less than a preset threshold, the method further includes:

Collecting input voiceprint information;

Comparing whether the voiceprint information matches the preset voiceprint information, and if yes, performing the step of responding to the operation type to generate a control instruction corresponding to the operation type.
According to claim 3 The control method is characterized in that, after collecting the input voiceprint information, and before comparing whether the voiceprint information and the preset voiceprint information match, the method further includes:

Sending a preset voiceprint information acquisition request to a designated contact in the address book of the smart watch;

Receiving preset voiceprint information sent by the specified contact.
According to claim 3 The control method is characterized in that, after collecting the input voiceprint information, and before comparing whether the voiceprint information and the preset voiceprint information match, the method further includes:

Sending a preset voiceprint information acquisition request to a designated relationship user in the social application in which the smart watch is running;

Receiving preset voiceprint information sent by the specified relationship user.
According to claim 3 The control method is characterized in that, after collecting the input voiceprint information, and before comparing whether the voiceprint information and the preset voiceprint information match, the method further includes:

Sending a reference voiceprint information acquisition request to a designated contact in the address book of the smart watch; and sending a reference voiceprint information acquisition request to a designated relationship user in the social application in which the smart watch is running;

Receiving reference voiceprint information sent by the specified contact, and receiving reference voiceprint information sent by the specified relationship user;

Matching whether the reference voiceprint information sent by the specified contact matches the reference voiceprint information sent by the specified relationship user, and if the same, the reference voiceprint information is used as the preset voiceprint information.
A smart watch is characterized in that: a side surface of the smart watch is provided with a crown, a side surface of the crown is formed with a concave hollow structure, and a middle end of the hollow structure is provided with a bottom end hinged to the bottom of the hollow structure And the other end is flush with the operating lever on the side of the crown, the smart watch includes:

An operation type detecting unit for detecting a type of operation of the operating lever;

a control instruction generating unit, configured to generate a control instruction corresponding to the operation type in response to the operation type;

And displaying an operation execution unit for performing a touch screen display operation corresponding to the control instruction.
The smart watch according to claim 7, wherein the smart watch further comprises:

An acceleration detecting unit, configured to detect whether an acceleration of the smart watch is less than a preset threshold after the operation type detecting component detects an operation type of the operating lever, and if yes, triggering the control instruction generating portion to perform the Responsive to the operation type, the step of generating a control instruction corresponding to the operation type.
The smart watch according to claim 8, wherein the smart watch further comprises:

a voiceprint information collecting component, configured to collect the input voiceprint information after the acceleration detecting component detects that the acceleration of the smart watch is less than a preset threshold;

a first voiceprint matching component, configured to compare whether the voiceprint information matches the preset voiceprint information, and if yes, triggering the control instruction generating component to perform the responding to the operation type, generating the operation type corresponding The steps of the control instructions.
The smart watch according to claim 9, wherein the smart watch further comprises:

a first communication component, configured to: after the voiceprint information collecting component collects the input voiceprint information, send a preset voiceprint information acquisition request to the designated contact in the address book of the smart watch, and receive the designation The preset voiceprint information sent by the contact is provided to the first voiceprint matching component.
The smart watch according to claim 9, wherein the smart watch further comprises:

a second communication component, configured to: after the voiceprint information collecting component collects the input voiceprint information, send a preset voiceprint information acquisition request to the designated relationship user in the social application running by the smart watch, and receive the The preset voiceprint information sent by the related user is specified and provided to the first voiceprint matching component.
The smart watch according to claim 9, wherein the smart watch further comprises:

a third communication component, configured to send a reference voiceprint information acquisition request to a designated contact in the address book of the smart watch after the voiceprint information collecting component collects the input voiceprint information; The designated relationship user in the running social application sends a reference voiceprint information acquisition request; receives reference voiceprint information sent by the designated contact, and receives reference voiceprint information sent by the specified relationship user;

a second voiceprint matching component, configured to match whether the reference voiceprint information sent by the specified contact matches the reference voiceprint information sent by the specified relationship user, and if the same, use the reference voiceprint information as a preset sound Pattern information is provided to the first voiceprint matching component.
The smart watch according to any one of claims 7 to 12, wherein the hollow structure is a conical hollow structure.
A storage medium characterized by storing processor-executable instructions for performing the following operations:

Detecting a type of operation of the operating lever of the smart watch; wherein a side of the smart watch is provided with a crown, a side of the crown is formed with a concave hollow structure, and an end of the hollow structure is provided with an end hinged The bottom of the hollow structure, and the other end is flush with the operating lever on the side of the crown;

Responding to the operation type, generating a control instruction corresponding to the operation type;

A touch display display operation corresponding to the control command is performed.
A storage medium according to claim 14, wherein said processor is further operative to execute instructions for:

After detecting the type of operation of the operating lever, detecting whether the acceleration of the smart watch is less than a preset threshold, and if so, performing the step of responding to the operation type to generate a control instruction corresponding to the operation type.
The storage medium of claim 15 wherein the processor is further operative to execute instructions for:

After detecting that the acceleration of the smart watch is less than a preset threshold, collecting the input voiceprint information;

Comparing whether the voiceprint information matches the preset voiceprint information, and if yes, performing the step of responding to the operation type to generate a control instruction corresponding to the operation type.
A storage medium according to claim 16, wherein said processor is further operative to execute instructions for:

After collecting the input voiceprint information, and before comparing whether the voiceprint information and the preset voiceprint information match, sending a preset voiceprint information acquisition request to a designated contact in the address book of the smart watch;

Receiving preset voiceprint information sent by the specified contact.
A storage medium according to claim 16, wherein said processor is further operative to execute instructions for:

After collecting the input voiceprint information, and before comparing whether the voiceprint information matches the preset voiceprint information, sending a preset voiceprint information acquisition request to a specified relationship user in the social application in which the smart watch is running ;

Receiving preset voiceprint information sent by the specified relationship user.
A storage medium according to claim 16, wherein said processor is further operative to execute instructions for:

After collecting the input voiceprint information, and before comparing whether the voiceprint information and the preset voiceprint information match, sending a reference voiceprint information acquisition request to a designated contact in the address book of the smart watch; The specified relationship user in the social application in which the smart watch is running sends a reference voiceprint information acquisition request;

Receiving reference voiceprint information sent by the specified contact, and receiving reference voiceprint information sent by the specified relationship user;

Matching whether the reference voiceprint information sent by the specified contact matches the reference voiceprint information sent by the specified relationship user, and if the same, the reference voiceprint information is used as the preset voiceprint information.