CN110825307A - Terminal and working method thereof - Google Patents

Abstract

The invention discloses a terminal and a working method thereof.A function item of an original physical key is triggered in a touch manner through a first touch unit which is exposed outside on the terminal and is independent from a touch display screen and a terminal processor; therefore, the corresponding functions are avoided being realized by using the physical keys on the terminal, the process of assembling the physical keys is saved, the assembly and the structure of the terminal are simplified, and the cost is saved.

Description

Terminal and working method thereof

Technical Field

The invention relates to the technical field of terminals, in particular to a terminal and a working method thereof.

Background

At present, a touch screen of a smart machine is widely used, gesture operations performed on the touch screen are more and more, but no matter how the size and the thickness of the smart machine are changed, some physical keys are arranged, for example, a volume up-down key is arranged on the side of the current mobile phone to adjust the volume; similarly, the power key becomes an indispensable part, and the volume side key or the power key is designed in consideration of the overall beauty and practicality as a part of the structure of the whole machine, and the assembly needs to be in consideration of the production operability.

The physical keys in the existing mobile phone are relatively complex in structure and assembly, taking the structure and assembly of a volume key and a power key as an example: the back shell of the mobile phone is disassembled, a volume key and a power key of the mobile phone can be seen to be placed on the side edge of the mobile phone, generally, a key is pasted on a soft adhesive tape and fixed in position through two positioning columns, structurally, holes need to be formed in the corresponding positions on the shell, and the positioning columns are added to play a role in fixing; in the aspect of assembly, a corresponding DOME switch or a microswitch needs to be installed on the mainboard, when the shell is fixed, the shell can be assembled only after the volume side key or the power supply key is installed in place, and the volume keys are arranged from top to bottom, so that care is needed during assembly. The structures and the assemblies of the volume key and the power key are tried to be removed, so that the material and the cost for independently producing the keys can be saved, the material and the cost for a DOME switch or a microswitch are saved, and the working procedure for welding the DOME switch or the microswitch on a mainboard and the working procedure for fixing the volume key and the power key during assembly are reduced.

In addition, physical keys in the mobile phone bring inconvenience due to factors such as the material of the keys, the size of the keys, the hardness of the keys and the like, have poor usability, and are easy to wear after being used for a long time so as to be finally damaged and unusable.

Disclosure of Invention

The invention provides a terminal and a working method thereof, which can solve the problems of complex assembly, poor usability and easy abrasion of physical keys in the conventional terminal.

In order to solve the technical problem, the invention provides a terminal, which comprises a terminal body, a processor positioned in the terminal body, a touch display screen arranged on the terminal body, and a first touch unit arranged on the terminal body and exposed outside as a part of the surface of the terminal, wherein the first touch unit and the touch display screen are positioned in different areas on the terminal body;

the first touch control unit is used for detecting a first touch operation and sending an obtained detection result to the processor;

the processor is configured to control execution of a corresponding function item using a detection result of the first touch unit, where the function item includes a function item implemented by at least one physical key.

In order to solve the above technical problem, the present invention provides a method for operating the above terminal, including that the first touch unit detects a first touch operation, and sends an obtained detection result to the processor;

the processor controls and executes corresponding function items by using the detection result of the first touch unit, wherein the function items comprise function items realized by at least one physical key.

The invention has the beneficial effects that:

the invention provides a terminal and a working method thereof, which can realize the function of a physical key of the original terminal by adopting a touch mode so as to achieve the aim of removing the physical key; the terminal comprises a terminal body, a processor positioned in the terminal body, a touch display screen arranged on the terminal body, and a first touch unit arranged on the terminal body and exposed outside as a part of the surface of the terminal, wherein the first touch unit and the touch display screen are positioned in different areas on the terminal body; the first touch control unit is used for detecting a first touch operation and sending an obtained detection result to the processor; the processor is used for controlling and executing corresponding function items by using the detection result of the first touch unit, wherein the function items comprise function items realized by at least one physical key; the terminal realizes triggering of the function item of the original physical key in a touch manner through the first touch unit and the terminal processor which are exposed outside and independent from the touch display screen; therefore, the corresponding functions are avoided being realized by using the physical keys on the terminal, the process of assembling the physical keys is saved, the assembly and the structure of the terminal are simplified, and the cost is saved.

For example, when the preset processing process of the invention includes adjusting the volume of the terminal, the terminal of the invention can adjust the volume in a touch manner, so that the situation that a volume key is arranged on the side edge of the terminal to adjust the volume is avoided, the cost for generating the volume key and devices related to the volume key is saved, and the assembly and the structure of the terminal are simplified by omitting the assembly of the volume key in the terminal assembly process; compared with the prior art, the terminal can solve the problems of complex assembly, poor usability and easy abrasion of physical keys in the conventional terminal, and improves the experience of a user in using the terminal.

Drawings

Fig. 1 is a schematic structural diagram of a terminal according to an embodiment of the present invention;

fig. 2 is a schematic flowchart of a terminal implementing a power-off function according to an embodiment of the present invention;

fig. 3 is a schematic flowchart of a terminal implementing an start-up function according to an embodiment of the present invention;

fig. 4 is a schematic flowchart of a process for waking up a terminal according to an embodiment of the present invention;

fig. 5 is a schematic flowchart of a process for implementing a sleep terminal according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of a user swiping up and down a camera touch lens;

fig. 7 is a schematic flowchart of a process for implementing adjustment of a terminal volume according to an embodiment of the present invention;

fig. 8 is a schematic flowchart of a process for implementing page switching according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of a terminal according to a second embodiment of the present invention;

fig. 10 is a schematic flow chart illustrating adjusting the volume of a terminal according to a second embodiment of the present invention;

fig. 11 is a schematic view illustrating a user swiping up and down on a touch display screen according to a second embodiment of the present invention;

fig. 12 is a schematic flowchart of a working method of a terminal according to a third embodiment of the present invention;

fig. 13 is a flowchart illustrating a working method of another terminal according to a third embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following detailed description and accompanying drawings.

The first embodiment is as follows:

in this embodiment, a first touch unit is added to an original terminal device to bear a touch operation of a user and detect the first touch operation of the user on the touch unit, and then a corresponding function item originally executed by a physical key is executed by using a detection result, for example, volume adjustment, power on/off, and the like. Therefore, in the embodiment, the terminal can realize the function corresponding to the physical key without setting the physical key; since the first touch unit in this embodiment is used to carry the touch operation of the user, it must be exposed on the surface of the terminal, and the first touch unit is disposed on the terminal body and exposed to the outside to form a part of the surface of the terminal. In some examples of the embodiment, the first touch unit may be disposed at a portion of the electronic device where the terminal surface is exposed, and at this time, the first touch unit may serve as a protection unit for the electronic device located therebelow. For example, the protective lens of the camera may be replaced with a touch lens as the first touch unit or the protective lens of the LED lamp may be replaced with a touch lens as the first touch unit.

As shown in fig. 1, the present embodiment provides a terminal, including: the terminal comprises a terminal body, a processor positioned in the terminal body, a touch display screen arranged on the terminal body, and a first touch unit arranged on the terminal body and exposed outside as a part of the surface of the terminal, wherein the first touch unit and the touch display screen are positioned in different areas on the terminal body; the first touch control unit is used for detecting a first touch operation and sending an obtained detection result to the processor; the processor is used for controlling and executing corresponding function items by using the detection result of the first touch unit, wherein the function items comprise function items realized by at least one physical key. For example, in this embodiment, the function item may include, but is not limited to, a function item implemented by at least one of the power physical key and the volume adjustment physical key, where at least one of the power physical key and the volume adjustment physical key is not arranged on the terminal body.

In an application example of this embodiment, the function items include function items implemented by a power physical key and a volume adjustment physical key, and at this time, the power physical key and the volume adjustment physical key are not arranged on the terminal body. The touch control method includes the steps that a first touch control unit and a terminal processor which are exposed outside and independent from a touch control display screen are used for triggering function items of original physical keys in a touch control mode, wherein the function items can include but are not limited to at least one of terminal closing, terminal opening, terminal awakening, terminal sleeping, volume adjustment and page switching; therefore, the corresponding functions are avoided being realized by using the physical keys on the terminal, the process of assembling the physical keys is saved, the assembly and the structure of the terminal are simplified, and the cost is saved.

Optionally, the first touch operation of the user in this embodiment may include pressing the first touch unit or stroking on the first touch unit. In the case that the first touch operation may include pressing the first touch unit, the first touch unit is configured to detect a pressing parameter of pressing the first touch unit; the processor is used for executing a corresponding preset processing process according to the pressing parameters. The following describes a process of implementing at least one of different function items by performing different processes using the pressing parameter at the terminal:

1. the first touch control unit is used for detecting a pressing parameter for pressing the first touch control unit when the terminal is in a standby state; the processor is used for executing the processing procedure of closing the terminal when the pressing parameter is in the preset range. At this time, the user can implement the shutdown operation on the first touch unit without using the power key.

Optionally, the processing procedure for closing the terminal in this embodiment includes: calling a key dialog box to prompt a user whether to close the terminal, and closing the terminal after receiving a shutdown instruction confirmed by the user; or to directly turn off the terminal.

Optionally, in this embodiment, the pressing parameters include a first pressing parameter and a second pressing parameter, and the processor is configured to execute a process of closing the terminal when both a value of the first pressing parameter and a value of the second pressing parameter are within a preset range. As shown in fig. 2, a specific process of the terminal shutdown in this embodiment is described:

step 201: when the terminal is in a standby state, a user presses the first touch unit through a finger;

step 202: the first touch unit detects a pressing area S and a pressing time T of a user;

step 203: the processor judges whether the pressing area S is larger than a preset pressing area St, if so, the step 204 is executed, and if not, the step 206 is executed;

step 204: the processor continues to determine whether the pressing time T is greater than a preset time Td, if yes, go to step 205, otherwise go to step 206;

step 205: the processor calls a shutdown dialog box to prompt a user whether to shut down, and closes the terminal after receiving a shutdown confirmation instruction input by the user;

step 206: the terminal does not respond.

Step 201 and step 206 of this embodiment describe how to implement the shutdown process according to the pressing area and the pressing time when the pressing parameters are the pressing area and the pressing time, and it should be understood that the terminal of this embodiment may also implement the shutdown process by using other pressing parameters (pressing position, pressing pressure, etc.).

2. The terminal comprises a first touch control unit, a second touch control unit and a control unit, wherein the first touch control unit is used for detecting a pressing parameter for pressing the first touch unit when the terminal is in a power-off state; the processor is used for executing the processing procedure of opening the terminal according to the pressing parameters. The processing procedure for starting the terminal in this embodiment may include: and directly starting the terminal or calling a prompt dialog box to receive a command of the user for confirming the starting-up and then starting the terminal. At this time, the user can implement the power-on operation on the first touch unit.

Optionally, the compression parameters include: a first compression parameter and a second compression parameter; the processor is used for executing a processing process of starting the terminal when the value of the first pressing parameter and the value of the second pressing parameter are both in a preset range; as shown in fig. 3, a process of starting up the terminal according to this embodiment is described:

step 301: when the terminal is in a power-off state, a user presses the first touch unit through a finger;

step 302: the first touch unit detects the pressing area and the pressing time pressed by a user;

step 303: the processor judges whether the pressing area S is larger than a preset pressing area St, if so, the step 304 is executed, and if not, the step 306 is executed;

step 304: the processor continues to determine whether the pressing time T is greater than the preset time Td, if yes, go to step 305, otherwise go to step 306;

step 305: the processor directly starts the terminal;

step 306: the terminal does not respond.

Step 301-.

3. The terminal comprises a first touch control unit, a second touch control unit and a control unit, wherein the first touch control unit is used for detecting a pressing parameter of a first touch unit when the terminal is in a dormant state; the processor is used for awakening the terminal according to the pressing parameters. Waking up the terminal in this embodiment may include lighting up a screen to display an unlock picture.

Optionally, in this embodiment, the pressing parameters include: a first compression parameter and a second compression parameter; the processor is used for awakening the terminal when the value of the first pressing parameter and the value of the second pressing parameter are both within a preset range; as shown in fig. 4, a procedure of waking up a terminal is introduced:

step 401: when the terminal is in a dormant state, a user presses the first touch unit through a finger;

step 402: the first touch unit detects the pressing area and the pressing time pressed by a user;

step 403: the processor judges whether the pressing area S is larger than a preset pressing area St, if so, the step 404 is executed, and if not, the step 406 is executed;

step 404: the processor continues to determine whether the pressing time T is less than a preset time Td, if yes, go to step 405, and if no, go to step 406;

step 405: the processor directly wakes up the terminal;

step 406: the terminal does not respond.

Step 406 in this embodiment may also be configured to execute a shutdown processing procedure.

Step 401 and step 406 of this embodiment describe how to implement the process of waking up the terminal according to the two parameters when the pressing parameter is the pressing area and the pressing time, and it should be understood that the terminal of this embodiment may also implement the process of waking up the terminal by using other pressing parameters (pressing position, pressing pressure, etc.).

4. The first touch control unit is used for detecting a pressing parameter for pressing the first touch unit when the terminal is in a dormant state; the processor is used for sleeping the terminal according to the pressing parameters; the dormant terminal in this embodiment includes turning off the terminal screen.

Optionally, in this embodiment, the pressing parameters include: a first compression parameter and a second compression parameter; the processor is configured to sleep the terminal when the value of the first pressing parameter and the value of the second pressing parameter are both within a preset range, as shown in fig. 5, a process of sleeping the terminal is described:

step 501: when the terminal is in a bright screen state, a user presses the first touch unit through a finger;

step 502: the first touch unit detects the pressing area and the pressing time pressed by a user;

step 503: the processor judges whether the pressing area S is larger than a preset pressing area St, if so, the step 504 is executed, and if not, the step 506 is executed;

step 504: the processor continues to determine whether the pressing time T is less than a preset time Td, if yes, go to step 505, and if no, go to step 506;

step 505: the processor directly sleeps the terminal;

step 506: the terminal does not respond.

Step 501 and 506 of this embodiment describe how to implement the sleep terminal according to the two parameters when the pressing parameters are the pressing area and the pressing time, and it should be understood that the terminal of this embodiment may also implement the sleep terminal by using other pressing parameters (pressing position, pressing pressure, etc.).

5. The volume adjusting function is realized, and the first touch control unit is used for detecting a pressing parameter for pressing the first touch control unit when the terminal is in a bright screen state; the processor is used for adjusting the volume of the terminal according to the pressing parameters. At this time, the user can press the first touch unit to adjust the volume.

Optionally, the compression parameters include: a first compression parameter and a second compression parameter; the processor is used for adjusting the volume of the terminal according to the second pressing parameter when the value of the first pressing parameter is within a preset range. For example, when the pressing parameters include a pressing area S and a pressing time T, the processor first determines whether the pressing area S is larger than a preset pressing area St, and if so, increases the volume of the terminal according to the pressing time value, for example, increases or decreases a volume level every second. For another example, the pressing parameter includes a pressing area S and a pressing position D, the processor first determines whether the pressing area S is larger than a preset pressing area St, and if so, determines whether the pressing position D is located above or below the first touch unit, and decreases a volume level when the pressing position D is below the pressing area S, and increases a volume level when the pressing position D is above the pressing area S.

It should be understood that the present embodiment adjusts the volume level according to the pressing parameter is not limited to the above-described examples, and the terminal of the present embodiment may adjust the volume according to various pressing parameters or a combination of single pressing parameters.

6. The page switching function is achieved, the first touch unit is used for detecting a pressing parameter for pressing the first touch unit when the terminal is in a bright screen state, and the processor is used for switching pages according to the pressing parameter. The page switching in this embodiment may include: page switching of a main interface or page switching in a certain application program. At this time, the user can perform a pressing operation on the first touch unit to realize page switching.

Optionally, the compression parameters include: a first compression parameter and a second compression parameter; the processor is used for switching pages according to the second pressing parameter when the value of the first pressing parameter is within a preset range; for example, when the pressing parameters include a pressing area S and a pressing position D, the processor first determines whether the pressing area S is larger than a preset area St, and if so, continues to determine whether the pressing position D is on the left or right of the touch unit, and if so, switches to the next page.

The first touch operation in this embodiment may further include: a stroking operation on the first touch unit; the first touch control unit is used for detecting the stroke operation on the first touch control unit; the processor is used for executing a corresponding preset processing process according to the detection result.

Optionally, the processor in this embodiment is configured to determine whether the detected paddling trajectory meets a preset condition, and if so, execute a corresponding preset processing procedure.

The following describes a process in which the terminal performs different functions by using a user's stroke on the first touch unit:

1. the terminal realizes a shutdown function, and the first touch unit is used for detecting the sliding operation on the first touch unit when the terminal is in a standby state; the processor is used for executing the processing procedure of closing the terminal according to the detection result. In this embodiment, the process of turning off the terminal processor includes: and directly closing the terminal or closing the terminal after obtaining the user confirmation instruction. At this time, the user can perform a swiping operation on the first touch unit to realize a shutdown operation without using a power key to shutdown. For example, a user draws a circle on the first touch unit, and when the terminal detects the circle, the terminal jumps out of a window whether to shut down, and shuts down after the user confirms the window.

It should be understood that the terminal of the present embodiment may also set other stroking tracks to implement the shutdown function.

2. The terminal realizes a starting function, and the first touch control unit is used for detecting the sliding operation on the first touch control unit chip when the terminal is in a shutdown state; the processor is used for executing the processing procedure of starting the terminal according to the detection result. For example, in a power-off state, a user performs a swiping operation on the first touch unit, and when the detected swiping trajectory meets a preset condition, the terminal executes a power-on operation.

3. The terminal realizes a wake-up function, and the first touch control unit is used for detecting the sliding operation on the first touch control unit when the terminal is in a dormant state; and the processor is used for executing a processing procedure of awakening the terminal according to the detection result.

4. The terminal realizes a sleep function, and the first touch unit is used for detecting the sliding operation on the first touch unit when the terminal is in a bright screen state; and the processor executes the processing process of the dormant terminal according to the detection result.

5. The terminal realizes a volume adjusting function, and the first touch unit is used for detecting the sliding operation on the first touch unit when the terminal is in a bright screen state; and the processor adjusts the volume of the terminal according to the detection result. At this time, the user can slide on the first touch unit of the terminal to adjust the volume of the terminal.

Alternatively, the stroking operation for volume adjustment may include stroking up and down; as shown in fig. 6, when the first touch unit is a camera protection lens, the first touch unit slides on the camera protection lens. As shown in fig. 7, a process of the terminal implementing a volume adjustment function by using a camera touch lens is introduced:

step 701: when the terminal is in a bright screen state, a user performs up (or down) swiping on a touch lens of the camera.

Step 702: detecting that a user performs up (or down) swiping operation on a touch lens of a camera by an IC circuit in the touch lens;

step 703: the processor judges whether the detected swiping operation meets a preset condition, if so, the step 704 is executed; if not, go to step 705;

for example, whether the stroke direction and the speed parameter are within the preset range is judged.

Step 704: increasing volume (or decreasing volume)

Step 705: the terminal does not respond.

The user can adjust the volume by using the camera of the terminal to perform a stroke operation up and down, and it should be understood that the stroke operation for adjusting the volume in this embodiment is not limited to the stroke operation up and down, but may also be other stroke operations, such as a stroke operation left and right. In this embodiment, the terminal performs volume adjustment only in the state of a bright screen.

6. The terminal achieves a page switching function, the first touch unit is used for detecting the sliding operation on the touch lens when the terminal is in a bright screen state, and the processor switches the page according to the sliding operation. At this time, the user may perform a swiping operation on the first touch unit to realize page switching when the terminal is in a bright screen state, and the page in this embodiment may include a certain page in the application program, and may also include the main interface.

Optionally, the swiping operation for switching the page includes swiping left or right; taking the first touch unit as a touch lens on the camera as an example, a specific process of the terminal for realizing page switching is described, as shown in fig. 8:

step 801: when the terminal is in a bright screen state, the user slides the touch lens of the camera leftwards (or rightwards).

Step 802: an IC circuit in the touch control lens detects that a user strokes leftwards (or rightwards) on the touch control lens of the camera;

step 803: the processor judges whether the detected swiping operation meets a preset condition, if so, the step 804 is executed; if not, go to step 805;

for example, whether the stroke direction and the speed parameter are within the preset range is judged.

Step 804: switching the current page to the previous page (or the next page);

step 805: the terminal does not respond.

When the terminal can realize the functions in a touch mode, two physical keys, namely a power key and a volume adjusting key, on the original terminal can be removed, so that the assembly of the terminal is simplified, and the cost is saved; compared with the prior art, the problems of complex assembly, poor usability and easy abrasion of physical keys in the existing terminal can be solved, and the experience of a user in using the terminal is improved.

In this embodiment, the first touch unit may be a touch lens, and the touch lens includes: a lens, a detection circuit and a connection circuit; the detection circuit is connected with the lens and used for detecting touch operation of a user on the lens, and the connection circuit is connected with the detection circuit and used for transmitting a detection result of the detection circuit to the processor; the touch lens is used as a protective lens of the camera.

Example two:

in the first embodiment, it is described that the terminal can implement the corresponding processing procedure only by performing the touch operation on the first touch unit. The embodiment provides a terminal which can realize corresponding processing procedures by combining touch operations on a first touch unit and a second touch unit. As shown in fig. 9, the terminal of the present embodiment includes a first touch unit, a second touch unit, and a processor;

the first touch control unit is used for bearing a first touch operation of a user and detecting the first touch operation of the user on the first touch control unit;

the second touch control unit is used for bearing a second touch operation of the user and detecting the second touch operation of the user on the second touch control unit;

the processor is used for executing a corresponding preset processing process according to the detection results of the first touch unit and the second touch unit.

The terminal of the embodiment can realize corresponding functions by combining touch operations on the two touch units. Optionally, the preset processing procedure of this embodiment may include: the method comprises the steps of starting a terminal, closing the terminal, adjusting the volume of the terminal, waking up the terminal, sleeping the terminal, switching pages or processing procedures specified by a terminal application program.

The user can perform touch operation on the two touch units on the terminal of the embodiment to realize the corresponding functions of the volume key and the power key, so that the structure and the assembly of the terminal can be simplified, the cost is saved, for example, the volume can be adjusted by utilizing the combined operation on the two touch units, so that the physical key for adjusting the volume can be removed, and the assembly process and the structure of the terminal are simplified.

Optionally, the first touch operation in this embodiment may include: and pressing the first touch control unit or performing a sliding operation on the first touch control unit, wherein the second touch control operation comprises pressing the second touch control unit or performing a sliding operation on the second touch control unit.

How the terminal of this embodiment utilizes two touch operations to implement a corresponding processing procedure is described below, where the first touch unit is a touch lens and serves as a protective lens of a camera, and the second touch unit is a touch display screen of the terminal:

1. the first touch control unit is used for detecting a first pressing parameter for pressing the touch control lens; the second touch control unit is used for detecting a second pressing parameter for pressing the touch control display screen; the processor is used for executing a corresponding preset processing process according to the first pressing parameter and the second pressing parameter.

For example, a user may press the touch lens and the touch display screen at the same time, and when the terminal determines that the values of the pressing parameters on the touch lens and the touch display screen are both within the preset range, the terminal executes shutdown, startup, wakeup or sleep operations.

2. The first touch operation comprises pressing the touch control lens, and the second touch operation comprises a sliding operation on the touch control display screen; the first touch control unit is used for detecting a pressing parameter for pressing the touch control lens; the second touch control unit is used for detecting the swiping operation on the touch control display screen; the processor is used for executing corresponding preset processing procedures according to the pressing parameter stroking operation.

For example, when a user presses the touch lens and strokes the touch screen on the touch screen display when the touch screen display is in a bright screen state, the terminal executes shutdown, startup, wakeup, sleep operation or volume adjustment operation when judging that the pressing parameter and the stroke parameter meet preset conditions.

The following describes a process of implementing volume adjustment by a terminal, as shown in fig. 10:

step 1001: when the terminal is in a bright screen state, a user presses the touch lens of the camera and simultaneously slides upwards (or downwards) on the touch display screen.

Fig. 11 is a schematic diagram illustrating a user swiping up and down on a touch display screen.

Step 1002: the IC circuit in the touch lens detects the pressing area S of the touch lens, and the IC circuit in the touch display screen detects the upward (or downward) stroking operation of a user.

In this embodiment, the stroking operation of the user for adjusting the volume is not limited to the up-down stroking, but may be other stroking operations, such as left-right stroking, and the like.

Step 1003: the processor determines whether the pressing area S is greater than a preset value St, if so, step 1004 is executed, otherwise, step 1006 is executed.

Here, the pressing parameter may be a selected pressing time or a selected pressing position.

Step 1004: and judging whether the detected swiping operation meets a preset condition, if so, executing a step 1005, and otherwise, executing a step 1006.

For example, whether the stroking trajectory is consistent with a preset trajectory or not is determined.

Step 1005: increasing the volume (or decreasing the volume).

Step 1006: the terminal does not respond.

The terminal of the embodiment is used for the user to adjust the volume through combined operation on the camera touch lens and the touch display screen.

3. The first touch operation comprises a swiping operation on the touch control lens, and the second touch operation comprises pressing the touch control display screen; the first touch control unit is used for detecting the sliding operation on the touch control lens; the second touch unit is used for detecting a pressing parameter for pressing the touch display screen; the processor is used for executing a corresponding preset processing process according to the pressing parameters and the sliding operation on the touch control lens.

Optionally, the processor is configured to execute a corresponding preset processing procedure when the value of the pressing parameter is within a preset range and the swiping operation satisfies a preset condition. The preset processing procedure may include: shutdown, startup, wakeup, sleep operation, or volume adjustment operation.

For example, when the terminal is in a bright screen state and a user presses the touch display screen and makes a left or right stroke on the camera touch lens, the terminal detects that the area for pressing the touch display screen is larger than a threshold value and performs page turning up or down when the left or right stroke on the camera touch lens meets a preset condition.

4. The first touch operation comprises a sliding operation on the touch control lens, and the second touch operation comprises a sliding operation on the touch control display screen; the first touch control unit is used for detecting the sliding operation on the touch control lens; the second touch control unit is used for detecting the swiping operation on the touch control display screen; the processor is used for executing a corresponding preset processing process according to the sliding operation on the touch lens and the sliding operation on the touch display screen.

The terminal of the embodiment can be used for the user to slide on the two touch units to realize corresponding functions, and the user experience is improved. For example, simultaneously sliding up and down the two lenses to realize the volume adjustment or page turning function.

The terminal of the embodiment is provided with two touch units for touch operation of a user, and the function of the existing physical key can be realized through combined operation on the two touch units, so that the terminal of the embodiment can avoid setting the physical key, and the existing physical key can be removed when the terminal of the embodiment can realize the functions of all the physical keys, thereby simplifying the assembly and the structure of the terminal and saving the production cost.

Optionally, in this embodiment, the second touch unit is a touch display screen of the terminal, and it should be understood that the second touch unit may also be configured for other touch settings, for example, a touch unit disposed at a side of the terminal.

Example three:

as shown in fig. 12, the present embodiment provides an operating method of the terminal shown in the above embodiments, including:

step 121: the first touch control unit detects the first touch operation and sends the obtained detection result to the processor.

Step 122: the processor controls and executes corresponding function items by using the detection result of the first touch unit, wherein the function items comprise function items realized by at least one physical key.

Optionally, the step of the first touch unit detecting a first touch operation of a user on the first touch unit includes: the first touch control unit detects a pressing parameter of a user pressing the first touch control unit; the step of executing the corresponding preset processing process by the processor by using the detection result of the first touch unit comprises the following steps: the processor executes a corresponding preset processing process according to the pressing parameters.

Optionally, the step of the first touch unit detecting a first touch operation of a user on the first touch unit includes: the first touch control unit detects the sliding operation of a user on the first touch control unit;

the step of executing the corresponding preset processing process by the processor by using the detection result of the first touch unit comprises the following steps: and the processor executes a corresponding preset processing process according to the detection result.

The working method of this embodiment can realize different processing procedures, and the following describes several working procedures of the terminal for realizing corresponding functions by using the pressing parameters:

1. specifically, the step of detecting a pressing parameter of the first touch unit pressed by the user by the first touch unit includes: the method comprises the steps that a first touch unit detects a pressing parameter for pressing the first touch unit when a terminal is in a standby state; the step that the processor executes the corresponding preset processing process according to the pressing parameters comprises the following steps: the processor executes the processing procedure of closing the terminal according to the pressing parameters.

2. The method includes the steps of realizing a starting function, specifically, detecting a pressing parameter of a user pressing the first touch unit by the first touch unit, including: the first touch control unit is used for detecting a pressing parameter for pressing the first touch unit when the terminal is in a power-off state; the step that the processor executes the corresponding preset processing process according to the pressing parameters comprises the following steps: the processor is used for executing the processing procedure of opening the terminal according to the pressing parameters.

3. The method for waking up the terminal includes the steps that a first touch unit detects a pressing parameter of a user pressing the first touch unit, and specifically the steps include: the method comprises the steps that a first touch unit detects a pressing parameter for pressing the first touch unit when a terminal is in a dormant state; the step that the processor executes the corresponding preset processing process according to the pressing parameters comprises the following steps: and the processor executes a processing procedure for waking up the terminal according to the pressing parameters.

4. The method for realizing the dormant terminal function specifically includes the steps that the first touch control unit detects a pressing parameter of a user pressing the first touch control unit: the method comprises the steps that a first touch unit detects a pressing parameter for pressing the first touch unit when a terminal is in a bright screen state; the step that the processor executes the corresponding preset processing process according to the pressing parameters comprises the following steps: and the processor executes the processing procedure of the dormant terminal according to the pressing parameters.

5. The method for adjusting the volume includes the steps that a first touch unit detects a pressing parameter of a user pressing the first touch unit, and specifically the steps include: the method comprises the steps that a first touch unit detects a pressing parameter for pressing the first touch unit when a terminal is in a bright screen state; the step that the processor executes the corresponding preset processing process according to the pressing parameters comprises the following steps: and the processor adjusts the volume of the terminal according to the pressing parameters.

6. The method for realizing the page switching function includes the following steps that a first touch unit detects a pressing parameter of a user pressing the first touch unit: the method comprises the steps that a first touch unit detects a pressing parameter for pressing the first touch unit when a terminal is in a bright screen state; the step that the processor executes the corresponding preset processing process according to the pressing parameters comprises the following steps: and the processor switches pages according to the pressing parameters.

The working method of the terminal can realize the corresponding function of the physical key in a touch mode, so that the physical key can be replaced, the structure and assembly of the terminal are simplified, and the cost is saved.

The following describes a process in which the terminal implements a corresponding function using the detected swipe operation:

1. the method for achieving the shutdown function includes the steps that the first touch unit detects a sliding operation of a user on the first touch unit, and specifically includes: the method comprises the steps that a first touch unit detects the sliding operation on the first touch unit when a terminal is in a standby state; the step that the processor executes the corresponding preset processing process according to the detection result comprises the following steps: and the processor executes a processing procedure of closing the terminal according to the detection result.

2. The method for detecting the sliding operation of the user on the first touch unit by the first touch unit includes: the method comprises the steps that a first touch unit detects the sliding operation on a first touch unit chip when a terminal is in a power-off state; the step that the processor executes the corresponding preset processing process according to the detection result comprises the following steps: and the processor executes the processing procedure of starting the terminal according to the detection result.

3. The method for waking up the terminal includes the steps that a first touch unit detects a sliding operation of a user on the first touch unit, and specifically the steps include: the first touch control unit is used for detecting the sliding operation on the first touch control unit when the terminal is in a dormant state; the step that the processor executes the corresponding preset processing process according to the detection result comprises the following steps: and the processor executes a processing procedure of awakening the terminal according to the detection result.

4. The method for realizing the dormant terminal function specifically includes the steps that the first touch control unit detects the sliding operation of a user on the first touch control unit: the method comprises the steps that a first touch unit detects a sliding operation on the first touch unit when a terminal is in a bright screen state; the step that the processor executes the corresponding preset processing process according to the detection result comprises the following steps: and the processor executes the processing process of the dormant terminal according to the detection result.

5. The method for adjusting the volume includes the steps that a first touch unit detects a sliding operation of a user on the first touch unit, and specifically the steps include: the method comprises the steps that a first touch unit detects a sliding operation on the first touch unit when a terminal is in a bright screen state; the step that the processor executes the corresponding preset processing process according to the detection result comprises the following steps: and the processor adjusts the volume of the terminal according to the detection result.

6. The method for realizing the page switching function specifically includes the steps that the first touch unit detects the sliding operation of the user on the first touch unit: the method comprises the steps that a first touch unit detects a sliding operation on a touch lens when a terminal is in a bright screen state; the step that the processor executes the corresponding preset processing process according to the detection result comprises the following steps: and the processor switches the page according to the detection result.

The working method of this embodiment may also utilize a touch combination of two touch units to implement a corresponding function, specifically, as shown in fig. 13, the working method of this embodiment includes:

step 131: the first touch control unit is used for bearing a first touch operation of a user and detecting the first touch operation of the user on the first touch control unit; the first touch unit is located on the surface of the terminal and serves as a protection unit of an electronic device in the terminal.

Optionally, in this embodiment, the first touch unit is a touch lens and is used as a protective lens of the camera.

Step 132: the second touch control unit bears a second touch operation of the user and detects the second touch operation of the user on the second touch control unit.

Preferably, the second touch unit in this embodiment may be a touch display screen of the terminal.

Step 133: the processor executes a corresponding preset processing process according to the detection results of the first touch unit and the second touch unit.

Optionally, in this embodiment, the first touch operation includes a sliding operation on or pressing the first touch unit, and the second touch operation includes a sliding operation on or pressing the second touch unit.

Specifically, a process of executing a corresponding function using the first touch operation and the second touch operation refers to the description of embodiment two.

The foregoing is a more detailed description of the present invention that is presented in conjunction with specific embodiments, and the practice of the invention is not to be considered limited to those descriptions. For those skilled in the art to which the invention pertains, several simple deductions or substitutions can be made without departing from the spirit of the invention, and all shall be considered as belonging to the protection scope of the invention.

Claims (12)

1. A terminal is characterized by comprising a terminal body, a processor positioned in the terminal body, a touch display screen arranged on the terminal body, and a first touch unit arranged on the terminal body and exposed outside as a part of the surface of the terminal, wherein the first touch unit and the touch display screen are positioned in different areas on the terminal body;

the first touch control unit is used for detecting a first touch operation and sending an obtained detection result to the processor;

the processor is configured to control execution of a corresponding function item using a detection result of the first touch unit, where the function item includes a function item implemented by at least one physical key.

2. The terminal of claim 1, wherein the function items include function items implemented by at least one of a power physical key and a volume adjustment physical key, and at least one of the power physical key and the volume adjustment physical key is not provided on the terminal body.

3. The terminal of claim 2, wherein the function items include function items implemented by a power physical key and a volume adjustment physical key, and the power physical key and the volume adjustment physical key are not arranged on the terminal body.

4. The terminal of any of claims 1-3, wherein the first touch operation comprises pressing the first touch-control unit; the first touch unit is used for detecting a pressing parameter of the first touch unit to obtain a detection result;

alternatively, the first and second electrodes may be,

the first touch operation comprises a stroking operation on the first touch control unit; the first touch unit is used for detecting the sliding operation of a user on the first touch unit to obtain a detection result.

5. The terminal of claim 4, wherein the function items implemented by the physical keys include at least one of closing the terminal, opening the terminal, waking up the terminal, sleeping the terminal, adjusting volume, and switching pages;

the first processing unit and the processor specifically perform at least one of:

the first touch control unit is used for detecting a pressing parameter for pressing the first touch unit when the terminal is in a standby state; the processor is used for executing a processing procedure of closing the terminal according to the pressing parameters;

the first touch control unit is used for detecting a pressing parameter for pressing the first touch unit when the terminal is in a power-off state; the processor is used for executing a processing process of starting the terminal according to the pressing parameters;

the first touch control unit is used for detecting a pressing parameter for pressing the first touch unit when the terminal is in a dormant state; the processor is used for executing a processing process of awakening the terminal according to the pressing parameters;

the first touch control unit is used for detecting a pressing parameter for pressing the first touch unit when the terminal is in a bright screen state; the processor is used for executing the processing process of the dormant terminal according to the pressing parameters;

the first touch control unit is used for detecting a pressing parameter for pressing the first touch unit when the terminal is in a bright screen state; the processor is used for adjusting the volume of the terminal according to the pressing parameters;

the first touch control unit is used for detecting a pressing parameter for pressing the first touch control unit when the terminal is in a bright screen state; and the processor is used for switching pages according to the pressing parameters.

6. The terminal of claim 5, wherein in the case where the processor performs a process of shutting down the terminal, the pressing parameter includes: a first compression parameter and a second compression parameter; the processor is used for executing a processing process of closing the terminal when the value of the first pressing parameter and the value of the second pressing parameter are both in a preset range;

when the processor executes a process of starting the terminal, the pressing parameters include: a first compression parameter and a second compression parameter; the processor is used for executing a processing process of starting the terminal when the value of the first pressing parameter and the value of the second pressing parameter are both in a preset range;

when the processor executes a process of waking up the terminal, the pressing parameter includes: a first compression parameter and a second compression parameter; the processor is used for waking up the terminal when the value of the first pressing parameter and the value of the second pressing parameter are both within a preset range;

in a case where the processor performs a process of a sleep terminal, the pressing parameter includes: a first compression parameter and a second compression parameter; the processor is used for sleeping the terminal when the value of the first pressing parameter and the value of the second pressing parameter are both in a preset range;

when the processor executes the adjustment of the volume of the terminal, the pressing parameters include: a first compression parameter and a second compression parameter; the processor is used for adjusting the volume of the terminal according to the second pressing parameter when the value of the first pressing parameter is within a preset range;

in a case where the processor performs page switching, the pressing parameters include: a first compression parameter and a second compression parameter; the processor is used for switching pages according to the second pressing parameter when the value of the first pressing parameter is within a preset range.

7. The terminal of claim 4, wherein the function items implemented by the physical keys include at least one of closing the terminal, opening the terminal, waking up the terminal, sleeping the terminal, adjusting volume, and switching pages;

the first processing unit and the processor specifically perform at least one of:

the first touch unit is used for detecting the sliding operation on the first touch unit when the terminal is in a standby state; the processor is used for executing a processing process of closing the terminal according to the detection result;

the first touch unit is used for detecting the sliding operation on the first touch unit sheet when the terminal is in a power-off state; the processor is used for executing a processing process of starting the terminal according to the detection result;

the first touch control unit is used for detecting the sliding operation on the first touch control unit when the terminal is in a dormant state; the processor is used for executing a processing process of awakening the terminal according to the detection result;

the first touch control unit is used for detecting the sliding operation on the first touch control unit when the terminal is in a bright screen state; the processor is used for executing the processing process of the dormant terminal according to the detection result;

the first touch control unit is used for detecting the sliding operation on the first touch control unit when the terminal is in a bright screen state; the processor is used for adjusting the volume of the terminal according to the detection result;

the first touch unit is used for detecting the sliding operation on the first touch unit when the terminal is in a bright screen state, and the processor is used for switching pages according to the detection result.

8. The terminal according to any one of claims 1 to 3, wherein an electronic device is disposed under the first touch unit, and the first touch unit is used as a protection unit for the electronic device.

9. The terminal of claim 8, wherein the electronic device is a camera, the first touch unit is a touch lens, and the touch lens comprises: a lens, a detection circuit and a connection circuit; the detection circuit is connected with the lens and used for detecting touch operation of a user on the lens, and the connection circuit is connected with the detection circuit and used for transmitting a detection result of the detection circuit to the processor; the touch lens is used as a protective lens of the camera;

or the like, or, alternatively,

the electronic device is an LED.

10. The terminal of any of claims 1-3, further comprising: a second touch unit; the second touch control unit is used for bearing a second touch operation of the user and detecting the second touch operation of the user on the second touch control unit; the processor is used for executing a corresponding preset processing process according to the detection results of the first touch unit and the second touch unit.

11. The terminal of claim 10, wherein the second touch unit is a touch display screen of the terminal or a touch unit disposed on a side of the terminal.

12. A method of operating a terminal as claimed in any one of claims 1 to 11, comprising the steps of:

the first touch control unit detects a first touch operation and sends an obtained detection result to the processor;

the processor controls and executes corresponding function items by using the detection result of the first touch unit, wherein the function items comprise function items realized by at least one physical key.

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