CN112199026A

CN112199026A - Intelligent watch capable of switching multi-window display

Info

Publication number: CN112199026A
Application number: CN202010878164.XA
Authority: CN
Inventors: 钟达; 黄建华
Original assignee: Guangdong Lemovt Intelligent Technology Co ltd
Current assignee: Guangdong Lemovt Intelligent Technology Co ltd
Priority date: 2020-08-27
Filing date: 2020-08-27
Publication date: 2021-01-08

Abstract

The invention relates to an intelligent watch which comprises a processor, a three-axis acceleration sensor, a vibration unit, an indicator light unit and a screen, wherein the processor comprises a storage unit, the storage unit stores a first interaction, a second interaction and a third interaction preset by a user, and the first interaction, the second interaction and the third interaction are gestures based on the three-axis acceleration sensor; the processor performs display partitioning on the screen, and the display partitioning at least comprises a first partition and a second partition which are consistent in area and do not overlap, and a third partition and a fourth partition which are larger than the first partition and are consistent in area; the vibration unit and the indicator light unit are configured to: after the smart watch obtains the first content, the vibration unit vibrates once, and the indicator light unit begins to flash; and when the smart watch has no unread content, the indicator light unit stops flashing.

Description

Intelligent watch capable of switching multi-window display

Technical Field

The invention relates to an intelligent watch, in particular to an intelligent watch capable of switching multi-window display.

Background

The screen of the smart watch is a whole, and in the control of the prior art, the screen is controlled as a whole, and either the screen is on or off, or the brightness of the screen is adjusted. CN2017108632732 discloses a method for touch control without screen of a watch, in which a touch-controllable area of the watch is divided into different areas by a mobile phone, so as to implement area-by-area control. As is known, the watch mainly consumes a screen, and the power consumption of the watch is greatly reduced due to the mode of saving the screen. However, the current smart watches are more and more mobile, and the screen becomes an indispensable component of the smart watch, so that the reduction of the power consumption of the screen becomes a problem to be considered in each large-brand smart watch. The present application combines the above-mentioned prior art to perform partition control on the screen.

Disclosure of Invention

In view of the above, the present invention provides a smart watch capable of switching between multi-window display, in which a user can view a content focused on by himself/herself preferentially, and a screen display range of the watch is continuously expanded along with a user's manipulation, so that the user can see clearly and consume power, and in which the user can completely release the other hand.

The specific technical scheme of the invention is as follows:

an intelligent watch comprises a processor, a three-axis acceleration sensor, a vibration unit, an indicator light unit and a screen,

the processor comprises a storage unit, wherein a first interaction, a second interaction and a third interaction preset by a user are stored in the storage unit, and the first interaction, the second interaction and the third interaction are gestures based on the three-axis acceleration sensor;

the processor performs display partitioning on the screen, and the display partitioning at least comprises a first partition and a second partition which are consistent in area and do not overlap, and a third partition and a fourth partition which are larger than the first partition and are consistent in area;

the vibration unit and the indicator light unit are configured to: after the smart watch obtains the first content, the vibration unit vibrates once, and the indicator light unit begins to flash; when the smart watch has no unread content, the indicator light unit stops flashing;

the processor is configured to:

the u processor judges the content obtained by the watch, arranges the content to a first partition queue when the content comprises any preset key content index item, and arranges the content to the first partition queue when the content does not comprise any preset key content index item;

upon detecting that a watch is implementing the first interaction, the processor determines whether the first partition queue is empty:

if not, controlling the first partition to be lightened, and displaying the first content in the first partition queue to the first partition according to the time sequence of entering the first partition queue; judging whether the watch is subjected to second interaction or not, if so, displaying the content displayed by the first partition to a third partition, and controlling the third partition to remove the rest of the first partition to turn off the screen when the next second interaction is continuously detected, and controlling the first partition to display the second content in the first partition queue; if the second interaction is not implemented, judging whether to implement a third interaction, if so, arranging the content displayed by the first partition into the second partition;

if the first partition queue is empty and the second partition queue is not empty, controlling the second partition to be lightened, and displaying the first content in the second partition queue to the second partition according to the time sequence of entering the second partition queue; and judging whether to implement the second interaction, if so, displaying the content displayed by the second partition to a fourth partition, and controlling the other part of the fourth partition except the second partition to be off when the next second interaction is continuously detected, wherein the second partition displays the second content in the second partition queue.

Further, the third partition and the fourth partition are the same partition, and both partitions include a third quadrant and a fourth quadrant of the screen.

Further, when the content displayed by the first subarea is displayed to the third subarea, the first subarea keeps a bright screen state; when the content displayed by the second partition is displayed to the fourth partition, the second partition keeps a bright screen state.

Further, the first and second partitions are not lighted at the same time except for a state where the partitions including both the first and second partitions are lighted.

Further, when the third interaction is judged to be carried out, the content displayed in the first partition is arranged to the head in the second partition, and when the second partition is lighted for content viewing, all information arranged from the first partition to the second partition is read firstly, and then the rest time sequence entering the second partition queue is read for content reading.

Further, the first interaction, the second interaction and the third interaction are three different preset gestures.

Further, the watch further comprises a fifth partition, the fifth partition is a partition comprising a third partition or a fourth partition, when the third partition or the fourth partition displays content, the processor judges whether to implement fourth interaction, if so, the fifth partition is lightened, and the content currently displayed by the third partition or the fourth partition is displayed in the fifth partition.

Further, the fourth interaction is an interaction different from the first interaction, the second interaction, and the third interaction.

Further, the content obtained by the watch is the push content of the mobile terminal bound to the watch or the content triggered by the watch.

Further, the first prompt is one time of vibration and/or a prompt lamp flickers.

Through the technical scheme, the screen display partitions which are staggered/not staggered are arranged on the screen, so that the content which needs to be read by a user is displayed in different partitions under different operations, and the partitions are adjusted from small to large in the operation process.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are a part of the embodiments of the present invention, but not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The terminology used in the embodiments of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in the examples of the present invention and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, and "a" and "an" generally include at least two, but do not exclude at least one, unless the context clearly dictates otherwise.

It should be understood that the term "and/or" as used herein is merely one type of association that describes an associated object, meaning that three relationships may exist, e.g., a and/or B may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

It should be understood that although the terms first, second, third, etc. may be used to describe … … in embodiments of the present invention, these … … should not be limited to these terms. These terms are used only to distinguish … …. For example, the first … … can also be referred to as the second … … and similarly the second … … can also be referred to as the first … … without departing from the scope of embodiments of the present invention.

The words "if", as used herein, may be interpreted as "at … …" or "at … …" or "in response to a determination" or "in response to a detection", depending on the context. Similarly, the phrases "if determined" or "if detected (a stated condition or event)" may be interpreted as "when determined" or "in response to a determination" or "when detected (a stated condition or event)" or "in response to a detection (a stated condition or event)", depending on the context.

It is also noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a good or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such good or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a commodity or system that includes the element.

When the user watches various information at the mobile phone end, the user can click the content which the user wants to read because the screen of the mobile phone is larger. However, when the message is pushed to the watch, the screen of the watch is small, so that when the user reads the message at the watch end, the message is read one by one according to the time arrangement, and a great number of messages are probably messages that the user does not want to browse but want to skip, which wastes a great deal of time for reading the messages that are not concerned. Moreover, the endurance of the watch is not too long due to the capacity of the battery, and the endurance is greatly reduced particularly under the condition of long-time bright screen. The application provides a multi-window display switching method for the smart watch based on the premise. The technical solution of the present application is explained in detail below.

The screen of the current intelligent watch is circular or square, and on a software level, the screen is partitioned and at least comprises a first partition and a second partition which are smaller. Preferably, the first and second partitions are disposed in the second and first quadrants of the screen, respectively. Preferably, the first partition is a screen of the second quadrant, and the second partition is a screen of the first quadrant.

The screen also includes a third and fourth larger section. Preferably, the third partition is a screen including the second quadrant and the third quadrant, and the fourth partition is a screen including the first quadrant and the fourth quadrant. In another preferred embodiment, the third partition and the fourth partition are the same partition, and both are screens including a third quadrant and a fourth quadrant.

When the content displayed in the first partition is displayed in the third partition, if the third partition does not include the first partition, the first partition with the content displayed on the screen is kept bright, and the third partition is lightened at the same time, so that the user can see the summary information of the content from the first partition and read all other contents of the content from the third partition. If the third partition includes the first partition, the content in the first partition disappears, and the disappeared content is displayed to the third partition. Preferably, the font can be enlarged and displayed when displayed, so that the user can see the font more clearly.

When the content displayed by the second partition is displayed in the fourth partition, if the fourth partition does not include the second partition, the bright screen of the second partition with the content can be kept displayed, and the fourth partition is lightened, so that the user can see the summary information of the content from the second partition and read all other contents of the content from the fourth partition. If the fourth partition includes the second partition, the content in the second partition disappears, and the disappeared content is displayed to a fourth partition including the second partition.

In addition to the state in which the divided regions including both the first divided region and the second divided region are lighted, at any other time, the first divided region and the second divided region are not lighted at the same time.

The above is the way the first partition and the second partition are displayed, and the content information displayed by the first partition and the second partition is explained below.

The first and second partitions are smaller and primarily display basic information of the content, such as the type and/or sender of the message, and the third and fourth partitions are larger and display the entirety of the content.

Preferably, when the user still cannot obtain better reading experience in the third partition or the fourth partition, a fifth partition may be further set, and the fifth partition is a partition including the whole screen. The power consumption is maximized when reading using the fifth partition.

The smart watch system and the implementation method of the present application are explained in detail below.

The screen of a smart watch is configured with the above-mentioned partitions, which are not to say that the screen is physically broken up into different partitions, but are implemented from a software level.

The intelligent watch further comprises a processor, a three-axis acceleration sensor, a vibration unit, an indicator light unit and the like. The processor is mainly used for calculation and control and comprises a storage unit, and the storage unit stores first interaction, second interaction and third interaction preset by a user. These interactions are based on the gesture of triaxial acceleration sensor, and the treater can judge the action of smart watch, sees what kind of gesture of prestoring that the wrist-watch was implemented. The display partition of the screen is also calculated based on the processor.

When the watch obtains the content, the vibration unit vibrates once, and the indicator light unit begins to flash; and when the smart watch has no unread content, the indicator light unit stops flashing. And the storage unit of the processor also stores key content index items, and when any index of the key content index items exists in the obtained content, the content is arranged to the first partition queue, and if any index of the key content index items does not exist, the content is arranged to the second partition queue.

When a user needs to check a message, the processor detects whether the watch implements first interaction, if the first interaction is implemented, whether the first partition queue is the content or not is judged, if the first partition queue is the content, the content in the first partition queue is read according to the time sequence, and the first content in the first partition queue is displayed in the first partition. At the moment, the summary of the first content is mainly displayed in the first partition, if the user needs to continue reading, the second interaction is carried out on the watch, the first content is displayed in the third partition, and when the second interaction is continuously carried out, the first content is completely read, at the moment, the third partition is controlled to remove the rest part of the first partition and turn off the screen, and the first partition is controlled to display the second content in the first partition queue; when the second interaction is not implemented, judging whether to implement the third interaction, if so, arranging the content displayed by the first partition into the second partition (which is a key point, the user directly pushes the information into the second partition without reading the information, and the second partition is a secondary partition); and preferably, to the head of the second partition. If the first partition queue is empty and the second partition queue is not empty, the second partition is lightened, and the first content in the second partition queue is displayed to the second partition according to the time sequence of entering the second partition queue; and judging whether to implement the second interaction, if so, displaying the content displayed by the second partition to a fourth partition, and controlling the other part of the fourth partition except the second partition to be off when the next second interaction is continuously detected, wherein the second partition displays the second content in the second partition queue. At this point, the user is reading the content in the second zone queue. Preferably, when the second partition queue has the content pushed from the first partition, the content pushed from the first partition is read first, and the rest of the content is read in time sequence after the content is read.

For the interaction mode stored by the processor, the first interaction is preferably set as a hand-raising interaction, the second interaction is preferably set as a wrist-turning interaction, and the third interaction is preferably set as a translation interaction. The ways of raising the hand, rotating the wrist and judging the translation are described below.

Firstly, judging the hand-up, and implementing the function of a preset value by the processor based on the hand-up judgment, if the first partition is lightened:

firstly, a three-axis acceleration sensor of the watch acquires three-axis acceleration data of the intelligent watch and transmits the three-axis acceleration data to the processor;

step two, a processor of the watch carries out filtering processing on the collected triaxial acceleration data to obtain processed triaxial acceleration data;

step three, storing a first acceleration threshold value in the processor, if the acceleration data of at least one axis in the acceleration data of the three axes reaches the first acceleration threshold value, judging that the human body is in a violent motion state by the processor, and simultaneously entering step four; if not, the processor judges that the human body is in a non-violent movement state and simultaneously enters the fifth step;

step four, performing a first step of cleaning the substrate,the processor stores a sampling frequency F, a first time threshold T₁A first amplitude threshold value, where T₁Is an integer, T₁<F, and the processor counts the time and amplitude of the acceleration data of each of the three axes rising or falling continuously: if the time of the acceleration data of any one of the three axes continuously rising or falling reaches the first time threshold T stored by the processor₁If the acceleration data of the shaft continuously rises or falls to reach the first amplitude threshold value stored by the processor, the processor judges that the hand-lifting mark appears, and the step IV is carried out; if not, repeating the step four;

step four, the processor stores a second time threshold T₂A first acceleration interval and a first number threshold, at said second time threshold T₂in/F, wherein T₂Is an integer, T₂<F, sampling T for each axis₂Counting the number of the acceleration data of each axis falling into the first acceleration interval, if the number of each axis reaches the first number threshold, judging that the hand is lifted, and entering a sixth step; if the numerical value of any axis does not reach the first numerical threshold, repeating the step four;

step five, the processor stores the sampling frequency F and a third time threshold value T₃A second amplitude threshold value, where T₃Is an integer, T₃<F, the processor counts the time and the amplitude of the continuous rising or falling of the acceleration data of the X axis and the Y axis in the three axes: if the acceleration data of the X axis and the Y axis continuously rise or fall time reaches the third time threshold T₃If the continuous rising or falling amplitudes of the acceleration data of the X axis and the acceleration data of the Y axis reach a second amplitude threshold value stored by the processor, the processor judges that a hand raising mark appears, and the fifth step is executed; if not, repeating the fifth step;

step five, the processor stores a second acceleration interval and a second number threshold, and the second time threshold T is₂within/F, sample T for each axis₂The acceleration data of each axis is counted to fall intoIf the numerical value of each axis reaches the second numerical threshold, judging that the hand is lifted, and entering a sixth step; if the numerical value of any axis does not reach the second numerical threshold, repeating the step five;

and step six, the processor judges that the first interaction is implemented.

And II, judging by wrist turning, wherein the processor judges to implement the function of a preset value based on wrist turning, if the second partition is lightened:

acquiring data of triaxial acceleration of the intelligent watch by a triaxial acceleration sensor of the intelligent watch, and transmitting the data of the triaxial acceleration to the processor;

step two, a processor of the smart watch performs filtering processing on the collected triaxial acceleration data to obtain processed triaxial acceleration data;

step three, the processor stores the sampling frequency F and the first time threshold value T₁/F and the first amplitude threshold value W0, where T₁Is an integer, T₁<F; the processor counts the time T and the amplitude W of the continuous rising or falling of the acceleration data of each axis in the three axes; if the acceleration data of the X-axis and the Z-axis in the three axes or the acceleration data of the Y-axis and the Z-axis in the three axes continuously rise or fall, the time reaches a first time threshold T stored by the processor₁If the continuously ascending or descending amplitudes of the acceleration data of the X-axis and Z-axis or the acceleration data of the Y-axis and Z-axis reach the amplitude threshold value W0 stored by the processor, the processor judges that the wrist-turning mark appears, and the step IV is carried out; if not, repeating the third step; the plane determined by the X axis and the Y axis is a plane parallel to the display screen of the bracelet, and the Z axis is an axis vertical to the plane;

step four, the processor stores a second time threshold T₂/F, acceleration interval [ A1, B1 ]]And a number threshold N0, where T₂Is an integer, T₂<F; at the second time threshold T₂within/F, sample T for each axis₂The acceleration data of each axis is counted to fall into the acceleration interval [ A1, B1 ]]If the number value N of each axis reaches the number threshold value N0, judging that the wrist is turned, and entering a fifth step; if the number value N of any axis does not reach the number threshold value N0, repeating the step three;

and step five, the processor controls and judges that the second interaction is implemented.

Thirdly, judging translation, and implementing the function of a preset value based on translation judgment by the processor, such as switching display content:

step three, the processor stores the sampling frequency F and the first time threshold value T₁/F and the first amplitude threshold value W0, where T₁Is an integer, T₁<F; the processor counts the time T and the amplitude W of the continuous rising or falling of the acceleration data of each axis in the three axes; if the acceleration data of the X-axis and the Y-axis of the three axes continuously rise or fall, the acceleration data reach a first time threshold T stored by the processor₁If the rising or falling amplitude of the acceleration data of the two axes of the X axis and the Y axis reaches the amplitude threshold value W0 stored by the processor, the processor judges that a translation mark appears, and the step IV is executed; if not, repeating the third step; the plane determined by the X axis and the Y axis is a plane parallel to the display screen of the bracelet;

step four, the processor stores a second time threshold T₂/F, acceleration interval [ A1, B1 ]]And a number threshold N0, where T₂Is an integer, T₂<F; at the second time threshold T₂within/F, sample T for each axis₂The acceleration data of each axis is counted to fall into the acceleration interval [ A1, B1 ]]If the number value N of each axis reaches the number threshold value N0, the wrist is judged to be switched, and the step is enteredFifthly; if the number value N of any axis does not reach the number threshold value N0, repeating the step three;

and step five, the processor judges that the third interaction is implemented.

The fourth interaction may be a gesture set by the other user.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. An intelligent watch comprises a processor, a three-axis acceleration sensor, a vibration unit, an indicator light unit and a screen,

the processor is configured to:

2. The smartwatch of claim 1, wherein the third zone and the fourth zone are the same zone, both zones comprising a third quadrant and a fourth quadrant of the screen.

3. The smart watch of claim 1, wherein the first section remains in a bright state when the content displayed by the first section is displayed to the third section; when the content displayed by the second partition is displayed to the fourth partition, the second partition keeps a bright screen state.

4. The smartwatch of claim 1, wherein the first zone and the second zone are not simultaneously illuminated except for a state in which zones comprising both the first zone and the second zone are illuminated.

5. The smart watch of claim 1, wherein when it is determined that the third interaction is performed, the content displayed in the first partition is arranged to the top of the second partition, and when the second partition is lighted for content viewing, all information arranged from the first partition to the second partition is read first, and then the remaining time sequence entering the queue of the second partition is read for content reading.

6. The smartwatch of claim 1, wherein the first interaction, the second interaction, and the third interaction are three different gestures that are preset.

7. The smart watch of claim 1, wherein the watch further comprises a fifth partition, the fifth partition being a partition comprising a third partition or a fourth partition, wherein when the third partition or the fourth partition displays content, the processor determines whether to perform a fourth interaction, and if so, the fifth partition illuminates to display the content currently displayed by the third partition or the fourth partition in the fifth partition.

8. The smartwatch of claim 1, wherein the fourth interaction is an interaction distinct from the first, second, and third interactions.

9. The smartwatch according to claim 1, wherein the content obtained by the watch is push content of a mobile terminal to which the watch is bound or content triggered by the watch itself.

10. The smartwatch of claim 1, wherein the first alert is a vibration and/or a flashing alert light.