CN109375539A - A kind of control method and electronic equipment - Google Patents
A kind of control method and electronic equipment Download PDFInfo
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- CN109375539A CN109375539A CN201811211542.8A CN201811211542A CN109375539A CN 109375539 A CN109375539 A CN 109375539A CN 201811211542 A CN201811211542 A CN 201811211542A CN 109375539 A CN109375539 A CN 109375539A
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- 235000013399 edible fruits Nutrition 0.000 claims description 2
- 238000012512 characterization method Methods 0.000 abstract description 7
- 238000010586 diagram Methods 0.000 description 5
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- 238000004891 communication Methods 0.000 description 4
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B19/00—Programme-control systems
- G05B19/02—Programme-control systems electric
- G05B19/04—Programme control other than numerical control, i.e. in sequence controllers or logic controllers
- G05B19/042—Programme control other than numerical control, i.e. in sequence controllers or logic controllers using digital processors
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Abstract
This application discloses a kind of control method and electronic equipments, method includes: in response to the first instruction, and controlling electronic devices is in the first working condition, wherein, if the electronic equipment is in the first working condition, the object pointer of the electronic equipment is moved with first state;In response to the second instruction, controls the electronic equipment and be in the second working condition, wherein if the electronic equipment is in the second working condition, the object pointer is moved with the second state;First working condition of the electronic equipment and second working condition of the electronic equipment are different.It can be seen that, it goes to show other information it is not necessary that independent component is arranged on electronic equipment such as stem-winder in the application, by the object pointer of electronic equipment can characterization of electronic equipment different working conditions, thus, increase the usage mode of electronic equipment in the case where not increasing component, brings usage experience more abundant for user.
Description
Technical field
This application involves intelligent terminal technical field more particularly to a kind of control method and electronic equipments.
Background technique
Currently, stem-winder indicates current time by hour hands, minute hand and second hand, in addition to this, can only lead on stem-winder
It crosses and the fixed displaying information such as date or North and South direction of independent component is set.
The usage mode of existing stem-winder is single as a result, and user experience is poor.
Summary of the invention
In view of this, the application provides a kind of control method and electronic equipment, to solve stem-winder in the prior art
Usage mode is single, the poor technical problem of user experience.
This application provides a kind of control methods, comprising:
In response to the first instruction, controlling electronic devices is in the first working condition, wherein if the electronic equipment is in
The object pointer of first working condition, the electronic equipment is moved with first state;
In response to the second instruction, controls the electronic equipment and be in the second working condition, wherein if the electronic equipment
In the second working condition, the object pointer is moved with the second state;
First working condition of the electronic equipment and second working condition of the electronic equipment are different.
The above method, preferred:
If the electronic equipment is in the first working condition, the electronic equipment by the movement of the object pointer come
Carry out the prompt of first working condition;
If the electronic equipment is in second working condition, the electronic equipment is stopped by the object pointer
Position is stayed to carry out the prompt of second working condition, or/and, the electronic equipment by the movement of the object pointer come
Carry out the prompt of second working condition.
The above method, it is preferred that if the electronic equipment is in the first working condition, the target of the electronic equipment refers to
Needle is moved with first state, comprising:
If the electronic equipment is in the first working condition, the object pointer is rotated with preset first slewing rate
Axis uniform rotation clockwise.
The above method, it is preferred that if the electronic equipment is in the second working condition, the object pointer is with the second shape
State is moved, comprising:
If the electronic equipment is in the second working condition, the object pointer is rotated axial pre- with target rotational direction
If first object position rotation;
Or
The object pointer is rotated and is kept to the first object position around the shaft with the target rotational direction
In the first object position;
Or
The object pointer is rotated to the first object position around the shaft with the target rotational direction and in institute
First object position is stated to be swung.
The above method, it is preferred that the target rotational direction and the first object position and the object pointer are worked as
Relativeness between preceding direction position is corresponding.
The above method, it is preferred that the object pointer is rotated axial preset first object position with target rotational direction
Rotation, comprising:
The object pointer is rotated axial preset first object position uniform rotation with preset second slewing rate, institute
The second slewing rate is stated greater than the first slewing rate;First slewing rate is if the electronic equipment is in the first work
The slewing rate that the object pointer is rotated clockwise around the shaft under state;
Or
The object pointer with target rotational direction around the shaft to the first object position according to preset acceleration
Degree accelerates rotation.
The above method, it is preferred that the target rotational direction with second instruction trigger event type it is corresponding;
Or/and
The first object position is corresponding with the trigger event type.
The above method, it is preferred that if the electronic equipment is in the second working condition, the object pointer is with
Two-state is moved, comprising:
If electronic equipment is switched to second working condition, the movement of the object pointer is controlled from described first
State switches to second state;
Or/and;
If the electronic equipment is in the first working condition, the object pointer of the electronic equipment is with first state
It is moved, comprising:
If electronic equipment is switched to first working condition, the movement of the object pointer is controlled from described second
State switches to the first state.
The above method, it is preferred that further include:
It records first when the object pointer enters second state from first state and is directed toward position and the mesh
The duration that mark pointer is moved with the second state;
Wherein, the movement for controlling the object pointer switches to the first state from second state, comprising:
It controls the object pointer and is directed toward position from starting and initially enter the first state and moved, wherein is described
It is corresponding with the position after first direction position is superimposed the duration respective distances that position is directed toward in starting.
The above method, it is preferred that further include:
Current time is obtained from destination apparatus;
Wherein, the movement of the control object pointer switches to the first state from second state, comprising:
It controls the object pointer and switches to described first with the current time corresponding position for starting direction position
State.
The above method, it is preferred that the control object pointer is that starting refers to the current time corresponding position
The first state is switched to position, comprising:
If from the object pointer switch to the first state before currently point at the time of position corresponds to be less than institute
It states current time and the two difference is less than preset time threshold, control the object pointer acceleration and turn to the current time pair
The position answered and the movement for starting the first state;
If from the object pointer switch to the first state before currently point at the time of position corresponds to be less than institute
It states current time and the two difference is greater than the time threshold, the object pointer currently points to work as described in the stop of position described
The preceding moment with it is described currently point to position it is corresponding at the time of between at the time of difference start the movement of the first state again;
If from the object pointer switch to the first state before currently point at the time of position corresponds to be greater than institute
It states current time and the two difference is less than the time threshold, the object pointer currently points to work as described in the stop of position described
The preceding moment with it is described currently point to position it is corresponding at the time of between at the time of difference start the movement of the first state again;
If from the object pointer switch to the first state before currently point at the time of position corresponds to be greater than institute
It states current time and the two difference is greater than the time threshold, control the object pointer acceleration and turn to the current time pair
The position answered and the movement for starting the first state.
The above method, preferred:
If the electronic equipment is in the first working condition, the movement of the object pointer is from the electronic equipment
Machine core mechanical structure, and the power of the movement of the object pointer is from the clockwork spring of the machine core of the electronic equipment;
If the point does equipment and is in the second working condition, the movement of the object pointer is from the electronic equipment
Machine core mechanical structure, and the power of the movement of the object pointer is from the power supply of the electronic equipment;
Wherein, the object pointer is moved with the second state, comprising:
The shaft of object pointer described in the power drives rotates, so that the object pointer is transported with the second state
It is dynamic.
The above method, it is preferred that the object pointer is moved with the second state, comprising:
The object pointer rotates axial preset object pointer range rotation, and is directed toward within the scope of the object pointer
Second target position, relative position of second target position within the scope of the object pointer are corresponding with second instruction
Event schdules parameter it is corresponding.
Present invention also provides a kind of electronic equipment, comprising:
Object pointer;
First control module, in response to the first instruction, controlling electronic devices to be in the first working condition, wherein such as
Electronic equipment described in fruit is in the first working condition, and the object pointer of the electronic equipment is moved with first state;
Second control module, for controlling the electronic equipment and being in the second working condition in response to the second instruction,
In, if the electronic equipment is in the second working condition, the object pointer is moved with the second state;
First working condition of the electronic equipment and second working condition of the electronic equipment are different.
Present invention also provides a kind of electronic equipment, comprising:
Object pointer;
Machine core, including mechanical structure and clockwork spring, the clockwork spring is for driving the mechanical structure that the target is driven to refer to
Needle movement;
Controller drives the object pointer to move for controlling the mechanical structure;
Power supply, if controlling the mechanical structure for the controller to drive the object pointer movement, the electricity
Source provides the power that the controller drives the mechanical structure;
Wherein, if the electronic equipment is in the first working condition, the controller controls the mechanical structure with band
It moves the object pointer and enters first state and moved;
If the electronic equipment is in the second working condition, it is described to drive that the controller controls the mechanical structure
Object pointer enters the second state and is moved.
Above-mentioned electronic equipment, it is preferred that if the electronic equipment is in the first working condition and the controller is not controlled
The mechanical structure is made to drive the object pointer to move, then the clockwork spring drives the mechanical structure to drive the target
Pointer enters first state and is moved.
It can be seen from the above technical proposal that a kind of control method disclosed in the present application and electronic equipment, by difference
Instruction carry out response and be in different working conditions to controlling electronic devices, and under different working conditions, electronic equipment
On object pointer moved with different states, gone without independent component is arranged on electronic equipment such as stem-winder
Show other information, by the object pointer of electronic equipment can characterization of electronic equipment different working conditions, exist as a result,
Increase the usage mode of electronic equipment in the case where not increasing component, brings usage experience more abundant for user.
Detailed description of the invention
In order to illustrate the technical solutions in the embodiments of the present application or in the prior art more clearly, to embodiment or will show below
There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this
Some embodiments of application for those of ordinary skill in the art without creative efforts, can be with
It obtains other drawings based on these drawings.
Fig. 1 is a kind of flow chart for control method that the embodiment of the present application one provides;
Fig. 2-Figure 13 is respectively the exemplary diagram of the embodiment of the present application;
Figure 14 is the structural schematic diagram for a kind of electronic equipment that the embodiment of the present application two provides;
Figure 15 is the structural schematic diagram for a kind of electronic equipment that the embodiment of the present application three provides.
Specific embodiment
Below in conjunction with the attached drawing in the embodiment of the present application, technical solutions in the embodiments of the present application carries out clear, complete
Site preparation description, it is clear that described embodiments are only a part of embodiments of the present application, instead of all the embodiments.It is based on
Embodiment in the application, it is obtained by those of ordinary skill in the art without making creative efforts every other
Embodiment shall fall in the protection scope of this application.
It is a kind of implementation flow chart for control method that the embodiment of the present application one provides with reference to Fig. 1, the control in the present embodiment
Method processed can be adapted for having in the electronic equipment of pointer, such as stem-winder or in the electronic watch with pointer.
In the present embodiment, which may comprise steps of:
Step 101: in response to the first instruction, controlling electronic devices is in the first working condition, the target in electronic equipment
Pointer is moved with first state.
Wherein, the first working condition of electronic equipment can be the states such as time instruction.Object pointer in electronic equipment
It can be hour hands, minute hand or second hand, in the application, be illustrated so that object pointer is second hand as an example.
It should be noted that if electronic equipment is in the first working condition, the object pointer in electronic equipment with
First state is moved, such as carries out the movement of first state around the shaft.
Step 102: in response to the second instruction, controlling electronic devices is in the second working condition, the target in electronic equipment
Pointer is moved with the second state.
Wherein, the first working condition of electronic equipment is different with the second working condition of electronic equipment, correspondingly, target refers to
The first state that needle is moved is different from the second state that object pointer is moved, it is seen then that is in difference in electronic equipment
Working condition under when, the object pointer on electronic equipment is moved with different motion states.
By above scheme it is found that a kind of control method that the embodiment of the present application one provides, by different instruction progress
Response is in different working conditions to controlling electronic devices, and under different working conditions, the target on electronic equipment refers to
Needle is moved with different states, goes to show other letters without independent component is arranged on electronic equipment such as stem-winder
Breath, by the object pointer of electronic equipment can characterization of electronic equipment different working conditions, do not increasing component as a result,
In the case where increase the usage mode of electronic equipment, bring usage experience more abundant for user.
In one implementation, if electronic equipment is in the first working condition, electronic equipment is referred to by target
Needle moves to carry out the prompt of the first working condition, that is to say, that electronic equipment is carried out by object pointer with first state
Movement is to prompt electronic equipment to be in the first working condition;
If electronic equipment is in the second working condition, electronic equipment is carried out by the stop place of object pointer
The prompt of second working condition, alternatively, electronic equipment carries out the prompt of the first working condition by the movement of object pointer.?
That is electronic equipment is prompted by stop place of the object pointer in the movement of the second state or motion state itself
Electronic equipment is in the second working condition, and user can intuitively pass through the fortune of object pointer when using electronic equipment as a result,
Dynamic state or stop place can know the current working condition of electronic equipment, more use body to bring for user
It tests.
Based on implementation above, in the present embodiment, if electronic equipment is in the first working condition, the target of electronic equipment refers to
Needle is moved with first state, is specifically as follows:
Object pointer is with the uniform rotation clockwise around the shaft of preset first slewing rate.
For example, the first slewing rate is 1/60 slewing rate for enclosing (6 degree per second) per second, i.e. object pointer is every as second hand
It at the uniform velocity turns around the used time 60 seconds, that is to say, that the first working condition of electronic equipment is the working condition of stem-winder, at this time mesh
It marks pointer and is moved around uniform rotation clockwise, i.e. object pointer is rotated as second hand with the rate of 6 fixed degree per seconds, such as
Shown in Fig. 2.
And if electronic equipment is in the second working condition, the object pointer of electronic equipment is moved with the second state,
It is specifically as follows:
Object pointer is rotated around rotation axis to preset first object position with target rotational direction.
Wherein, target rotational direction can be to rotate clockwise direction, or rotate counterclockwise direction.Specifically,
Target rotational direction can be corresponding with the trigger event type of the second instruction, for example, the trigger event type of the second instruction is
The event type of immediate communication, such as incoming call, then target rotational direction can be it is clockwise, as shown in Figure 3;And if
The trigger event types of two instructions are the event type of character communication, such as short message reaches, then target rotational direction can be with
For direction counterclockwise, as shown in Figure 4.Corresponding relationship between specific trigger event type and target rotational direction can be with
It is configured according to actual needs.
Wherein, first object position can be position associated with the second working condition of electronic equipment, on dial plate
The setting position or the setting position of short message label etc. of incoming call label.Specifically, the setting of first object position can be with
The trigger event type of second instruction is corresponding, for example, multiple positions are provided on dial plate, in the trigger event of the second instruction
When type difference, corresponding first object position is different, for example, the trigger event type of the second instruction is the event of immediate communication
Type is such as sent a telegram here, then first object position is the setting position of incoming call label call, wherein the incoming call label is on dial plate
Character or legend, the incoming call label not instead of display show, institute on the physics dial plate of the electronic equipment
It presents, for example, being presented on dial plate by the techniques such as etching or printing.As shown in Figure 5;And if second instruction
Trigger event type is the event type of character communication, if short message reaches, then first object position can be arrived for short message
The setting position of label msg up to standard, as shown in Figure 6.The short message reaches the implementation that label msg is same as above label of sending a telegram here.
It should be noted that object pointer can be stopped no longer when turning to first object position, the second state is completed
Movement, at this point, controlling electronic devices is in the first working condition, object pointer is restored to first state, for example, object pointer
Continue with the uniform rotation clockwise around the shaft of the first slewing rate the position that returning to should arrive.Second is in electronic equipment as a result,
When working condition, electronic equipment carries out the prompt of the second working condition by the movement of object pointer come body, for example, passing through target
Finger clockwise rotates to carry out incoming call prompting to the position of label call, and after the completion of prompt, object pointer is restored to first
State, to prompt electronic equipment to be in the first working condition.
Alternatively, the object pointer of electronic equipment is transported if electronic equipment is in the second working condition with the second state
It is dynamic, it is specifically as follows:
Object pointer is rotated with the target rotational direction axial first object position that rotates and is maintained at first object position.
For example, instructing when sending a telegram here on electronic equipment in response to incoming call prompting, electronic equipment is in incoming call prompting state, this
When, object pointer is rotated with the target rotational direction axial first object position that rotates and is maintained at first object position and stopped always
Or stop certain time length (such as 3 seconds) and restore afterwards, electronic equipment is rested on first object position by object pointer as a result,
State provides incoming call prompting for user, and as shown in Figure 7, second hand rotates to the position of label call clockwise and rests on label
On the position of call, prompt the user to check incoming call on mobile phone with this, until incoming call prompting instruction terminate to start call or
After rejection, second hand is restored to the motion state of second hand, i.e. first state, to prompt electronic equipment to be in the first working condition.
Alternatively, the object pointer of electronic equipment is if electronic equipment is in the second working condition with the second state motion, tool
Body can be with are as follows:
Object pointer is rotated and is swung on first object position with rotate axial first object position of target rotational direction.
For example, instructing when sending a telegram here on electronic equipment in response to incoming call prompting, electronic equipment is in incoming call prompting state, this
When, object pointer is rotated and is swung on first object position with rotate axial first object position of target rotational direction, is put
Dynamic amplitude and frequency can be arranged according to demand, such as 1 hunting frequency per second and 6 amplitudes of fluctuation per second, electronic equipment
Incoming call prompting is provided for user by the state that object pointer is swung on first position after turning on first object position,
As shown in Figure 8, second hand is rotated to the position of label call clockwise and is swung on the position of label call after arrival, with
This prompts the user to check incoming call on mobile phone, and after incoming call prompting instruction terminates to start call or rejection, second hand restores
To the motion state of second hand, i.e. first state, to prompt the first electronic equipment to be in the first working condition.
It should be noted that target rotational direction can also currently point to position with first object position and object pointer
Between relativeness it is corresponding.Wherein, the position that currently points to of object pointer refers to that object pointer enters the fortune of the second state
Direction position before dynamic, i.e. object pointer when being in the movement of first state, electronic equipment in response to the second instruction and into
After entering the second working condition, object pointer has before entering the second state currently points to position.Object pointer is from currently pointing to
When position is rotated to first object position, according to first object position and the relative positional relationship between position can be currently pointed to
To determine the target rotational direction of object pointer.
For example, as shown in Figure 9, being less than 180 degree if currently pointing to position and having between first object position to the right
Angular distance, then target rotational direction is clockwise, alternatively, if first object position is relative to currently pointing to position
Distance clockwise is less than the distance in counter clockwise direction, then target rotational direction is then clockwise;Such as figure
Shown in 10, if currently point to position has to the right the angular distance for being greater than 180 degree, mesh between first object position
It is counterclockwise for marking rotation direction, alternatively, if first object position relative in the counter clockwise direction for currently pointing to position away from
From being less than with a distance from clockwise, then target rotational direction is then counterclockwise, to reduce the rotation of object pointer
Distance improves rotational efficienty.
In addition, object pointer with target rotational direction rotate axial preset first object position rotate when, specifically may be used
With are as follows:
Object pointer is rotated the uniform rotation of axial first object position with preset second slewing rate, 2 second rotation speed
Rate is greater than the first slewing rate.
For example, object pointer is at the uniform velocity suitable around the shaft with the speed of 6 degree per seconds when electronic equipment is in the first working condition
Hour hands rotation, when electronic equipment be in the second working condition, object pointer is at the uniform velocity rotated axial direction the with the speed of 12 degree per seconds
One target position rotates clockwise, and electronic equipment is under different working conditions as a result, and object pointer is at the uniform velocity turned with different
Dynamic rate is rotated, and prompts working condition locating for consumer electronic devices with this.
Alternatively, object pointer with target rotational direction rotate axial preset first object position rotate when, or:
Object pointer rotates axial first object position according to the acceleration rotation of preset acceleration with target rotational direction.
For example, object pointer is at the uniform velocity suitable around the shaft with the speed of 6 degree per seconds when electronic equipment is in the first working condition
Hour hands rotation, when electronic equipment is in the second working condition, object pointer is that 6 degree per seconds are every with 2 degree of acceleration with initial velocity
Second the speed acceleration axial first object position that rotates rotate clockwise, electronic equipment is under different working conditions as a result,
Object pointer is rotated with different slewing rates, prompts working condition locating for consumer electronic devices with this.
In one implementation, when electronic equipment is in the first working condition, there is the second instruction, then electronics is set
It is standby that response is carried out in the second working condition, correspondingly, the object pointer of prompt electronic device works state to the second instruction
The movement of the second state is switched to, from the movement of first state to prompt consumer electronic devices to be in the second working condition;
When electronic equipment is in the second working condition, the first instruction or the second instruction occur terminates, then target refers to
Needle also can be from the movement that the exercise recovery of the second state switches back into first state, to prompt consumer electronic devices to be in the first work
Make state.
Based on implementation above, the present embodiment enters the from the first working condition in one implementation, in electronic equipment
Two working conditions, correspondingly, the present embodiment may be used also when object pointer is switched to the movement of the second state from the movement of first state
With record first when object pointer enters the second state from first state be directed toward position and object pointer with the second state into
The duration of row movement, correspondingly, terminating the second working condition, when object pointer is restored to first state, target in electronic equipment
Pointer is to initially enter first state from starting direction position to be moved, and starting at this time is directed toward the first of position and record
Position after being directed toward the corresponding distance of duration of position superposition record is corresponding.
That is, will record target when object pointer is switched to the second state from first state in the present embodiment and refer to
What needle entered prior to or just when the second state first is directed toward position, i.e. initial time, also can from first be directed toward position it is corresponding when
Quarter, record object pointer enter the duration that the second state is moved, this duration is restored to until object pointer preparation
The movement of first state terminates, and hereby based on the duration of initial time and record, calculates current time.Correspondingly, target refers to
For needle in the movement for being restored to first state, it is not to be restored into before the second state that position is directed toward in the starting of movement
First is directed toward position, but experienced the current time corresponding position after the duration of the second state motion, i.e. position is directed toward in starting
It sets.
Alternatively, the present embodiment is in another implementation, enter the second work from the first working condition in electronic equipment
State, correspondingly, after object pointer is switched to the movement of the second state from the movement of first state, accordingly in electronic equipment knot
The second working condition of beam, when object pointer is restored to first state, the present embodiment obtains current time, example from destination apparatus
Such as, from the current time obtained in the electronic timer on electronic equipment in 60 seconds, such as 25 seconds or 40 seconds, alternatively, from electronics
Equipment, which passes through, obtains current time in wireless such as bluetooth or the mobile phone terminal of WiFi connection, and object pointer is being switched to as a result,
It is from current time setting in motion when first state is moved, position pointed by the object pointer is that current time institute is right
The position answered, the movement of first state since this position.
That is, object pointer is when being restored to the movement of first state from the second state in the present embodiment, movement
Starting be directed toward position be not be restored into before the second state first be directed toward position, but experienced the second state fortune
Position is directed toward in the corresponding starting in current time corresponding position after dynamic duration, i.e. synchronization point.
Specifically, object pointer is switched to first state from the second state when being moved, it is specifically corresponding from current time
Position start the movement of first state, it is specific:
If from object pointer be switched to first state before currently point to position to the right to starting be directed toward position
First angle distance be less than preset angle threshold, such as 180 degree, in other words, from object pointer switch to first state before work as
It is less than current time at the time of preceding direction position corresponds to and the two difference is less than preset threshold, such as 30 seconds, alternatively, from object pointer
Currently pointing to before switching to first state is greater than current time and the two difference and is greater than threshold value at the time of position corresponds to, then mesh
Mark pointer acceleration turns to current time corresponding position, i.e. position is directed toward in starting, and object pointer is directed toward current time pair at this time
On the position answered, and start the movement of first state;
If from object pointer switch first state before for currently pointing to position and being directed toward to the left to starting position
Two angular distances be less than angle threshold, such as 180 degree, in other words, if from object pointer switch to first state before current finger
It is less than current time at the time of correspondence to position and the two difference is greater than the time threshold, such as 30 seconds, alternatively, if from target
Pointer switch to before first state currently point to be greater than current time at the time of position corresponds to and the two difference is less than time threshold
Value, then object pointer stops second angle on currently pointing to position, apart from corresponding rotation duration, (slewing rate is target
The slewing rate of pointer in the first state) or stop current time it is corresponding with position is currently pointed at the time of between time
Difference, object pointer is directed toward on current time corresponding position at this time, and starts the movement of first state.
As shown in Figure 11, object pointer currently point to position arrive to the right starting be directed toward position between first angle away from
From being less than 180 degree, that is to say, that it currently points at the time of position corresponds to before current time, and the two difference is less than 30 seconds,
So object pointer is to be higher than the rate high-speed rotation of second hand slewing rate to starting direction position and enter first state progress
Movement, i.e. continuation second hand timing rotation.
It should be noted that object pointer is originated in high-speed rotation to current time corresponding position is directed toward institute in position
Caused error can be verified by entering after first state is moved in object pointer, alternatively, object pointer exists
Entering continuation high-speed rotation a certain distance or duration after originating direction position, (distance or duration here can be based on target
The revolving speed of pointer is calculated) it enters back into first state and is rotated, to eliminate error;Or again from destination apparatus such as
Current time is read in timer, the direction position of object pointer is adjusted, to eliminate error.
As shown in Figure 12, object pointer currently point to position arrive to the left starting be directed toward position between second angle it is small
In 180 degree, that is to say, that it currently points at the time of position corresponds to after current time, and the two difference is less than 30 seconds, then
Object pointer can stop the duration for both waiting and stopping difference or second angle apart from corresponding on currently pointing to position
Rotation duration (slewing rate of the second angle distance divided by object pointer in first state) enters back into first state and is turned
It is dynamic.
In one implementation, the electronic equipment in the present embodiment can be with machine core and corresponding mechanical structure
Terminal, correspondingly, when electronic equipment is in the first working condition, the machine core of the movement of object pointer from electronic equipment
Mechanical structure, such as gear set structure, and the power of the movement of object pointer is from the clockwork spring of the machine core of electronic equipment,
In, the power of clockwork spring can be turns clockwork spring generation manually, is also possible to the production that swings by the automatic rotary plate in machine core
It is raw;
And when electronic equipment is in the second working condition, the machine of the movement of object pointer from the machine core of electronic equipment
Tool structure, and the power of the movement of object pointer may come from the power supply of electronic equipment, such as be independently arranged in electronic equipment
The power supplys such as battery, the movement that object pointer enters the second state when being in the second working condition for electronic equipment provides dynamic
Power.
Correspondingly, being specifically as follows when object pointer is moved with the second state:
The shaft of power drives object pointer in electronic equipment rotates, so that object pointer is transported with the second state
It is dynamic.
As a result, in the electronic device, under different working conditions, object pointer can be real by the mechanical structure of machine core
Now move, and the power resources that object pointer is moved can be different, in the case where electronic equipment is in the first working condition, target
Pointer enters the power resources of the movement of first state in machine core clockwork spring, and in the case where electronic equipment is in the second working condition, mesh
The power resources of the movement of pointer into the second state are marked in power supply.
In another implementation, when electronic equipment is in the first working condition, object pointer is moved with first state
Power can be from power supply, thus power supply provided for the movement that object pointer carries out first state or the second state it is dynamic
Power, correspondingly, object pointer is being in different operating with different state motions in the support of power supply to carry out electronic equipment
The prompt of state.
In one implementation, object pointer is moved with the second state, is specifically as follows:
Object pointer rotates axial preset object pointer range rotation, and is directed toward the second target position of object pointer range
It sets, relative position of second target position within the scope of object pointer event schdules parameter corresponding with the second instruction is corresponding.
Wherein, object pointer range can be understood as the position range comprising multiple positions, object pointer range characterization
The second corresponding event schdules range of instruction, the progress range that such as progress range or mobile phone of 10000 steps charges.Accordingly
, the second instruction can carry out instruction caused by input operation on an electronic device for user, to trigger electronic equipment entrance
Second working condition.For example, user carries out the key of 1 wrist-watch side of double click operation or short-press, electronic equipment in crown
This double click operation is acquired to generate the second instruction, electronic equipment enters the second working condition at this time, correspondingly, object pointer with
Second state carries out movement prompt the second working condition of user.
Specifically, object pointer can be rotated and be entered to object pointer range with target rotational direction in the present embodiment
Object pointer range subsequently points to the second target position therein, and the second target position here is opposite within the scope of object pointer
Position is corresponding with event schdules parameter, for example, as shown in Figure 13, object pointer range is the step counting range of daily 10,000 step
It either sleeps (the step counting range of daily 10,000 step can modify or be arranged according to demand) such as length, object pointer range
In include multiple scales, such as 00-20-40-60-80-100, scale uniformly identifies within the scope of object pointer, the second target position
The progress percentage of relative position characterization step counting within the scope of step counting, such as scale 60 is step counting to the 60% of 10,000 steps,
Or scale 30 is the 30% of sleep 8 hours.The multiple scales for including in the object pointer range with above-mentioned incoming call label and
Short message reaches label implementation, for example, being presented on dial plate by the techniques such as etching or printing.The present embodiment as a result,
Middle user can by being operated to electronic equipment so that in electronic equipment by the movement of object pointer such as second hand come for
Family prompts step counting progress, improves user experience.
With reference to Figure 14, for the structural schematic diagram for a kind of electronic equipment that the embodiment of the present application two provides, which can
Think the terminals such as stem-winder or electronic watch, electronic equipment includes with flowering structure:
Object pointer 1401.Wherein, object pointer 1401 can be the smallest pointer of time of day in table, such as second hand.
First control module 1402, for instructing in response to first, controlling electronic devices is in the first working condition,
In, if electronic equipment is in the first working condition, the object pointer 1401 of electronic equipment is moved with first state.Its
In, the first working condition of electronic equipment can be the states such as time instruction.It should be noted that if electronic equipment is in the
One working condition, then the object pointer in electronic equipment is moved under the first control module 1402 with first state, such as
The movement etc. of first state is carried out around the shaft.
Second control module 1403, for instructing in response to second, controlling electronic devices is in the second working condition,
In, if electronic equipment is in the second working condition, object pointer 1401 is moved with the second state.
Wherein, the first working condition of electronic equipment is different with the second working condition of electronic equipment, correspondingly, target refers to
The first state that needle is moved is different from the second state that object pointer is moved, it is seen then that is in difference in electronic equipment
Working condition under when, the object pointer on electronic equipment is moved with different motion states.
By above scheme it is found that a kind of electronic equipment that the embodiment of the present application two provides, by different instruction progress
Response is in different working conditions to controlling electronic devices, and under different working conditions, the target on electronic equipment refers to
Needle is moved with different states, goes to show other letters without independent component is arranged on electronic equipment such as stem-winder
Breath, by the object pointer of electronic equipment can characterization of electronic equipment different working conditions, do not increasing component as a result,
In the case where increase the usage mode of electronic equipment, bring usage experience more abundant for user.
In one implementation, the first control module 1401 and the second control module 1402 can be by electronic equipments
Controller realize, controller to first instruction respond, controlling electronic devices be in the first working condition, alternatively, control
Device carries out response control electronic equipment to the second instruction and is in the second working condition.For example, the controller in wrist-watch controls wrist-watch
In time indicating operating status or incoming call prompting working condition.
Specifically, can also have power supply (such as battery) and machine core (including mechanical structure) in electronic equipment, if electronics
Equipment is in the first working condition, and controller control mechanical structure drives object pointer to be moved with first state, such as with the
One slewing rate uniform rotation, electricity of the power that mechanical structure drives object pointer to be moved at this time in electronic equipment
Source;
If electronic equipment is in the second working condition, controller controls mechanical structure and drives object pointer with the second state
It is moved, such as accelerates rotation to be different from the rate of the first slewing rate or stop motionless, object pointer is transported at this time
Power supply of the dynamic power in electronic equipment.
Hereinbefore scheme it should be noted that the specific implementation of each component in the present embodiment electronic equipment can refer to
1- Figure 13 and related content, and will not be described here in detail.
With reference to Figure 15, for the structural schematic diagram for a kind of electronic equipment that the embodiment of the present application three provides, which can
Think the terminals such as stem-winder, which may include with flowering structure:
Object pointer 1501.Wherein, object pointer 1501 can be the smallest pointer of time of day in stem-winder, such as second hand
Deng.
Machine core 1502, including mechanical structure and clockwork spring, the clockwork spring drive object pointer for drive mechanism
1501 movements.Wherein, the power of clockwork spring can be turns clockwork spring generation manually, is also possible to through the automatic rotation in machine core 1502
Turntable swings generation.And mechanical structure can be realized for gear set structure, and under the drive of mechanical structure, object pointer
1501 are able to carry out movement.
Controller 1503, for controlling mechanical structure to drive object pointer 1501 to move.
Power supply 1504, if controlling mechanical structure for controller 1503 to drive the movement of object pointer 1501, power supply
1504 provide the power of 1503 drive mechanism of controller;
Wherein, if electronic equipment is in the first working condition, the clockwork spring drive mechanism in machine core 1502 is to drive
Object pointer 1501 is moved into first state, such as with the first slewing rate uniform rotation, at this point, the power of clockwork spring can be with
It is to turn clockwork spring generation manually, is also possible to the generation that swings by the automatic rotary plate in machine core;
If electronic equipment is in the second working condition, controller 1503 controls mechanical structure to drive object pointer 1501
It is moved into the second state, such as to be higher than the rate of the first slewing rate at the uniform velocity or accelerate to rotate.
That is, driving object pointer 1501 with first state by the mechanical structure in machine core 150 in the present embodiment
It is moved, to prompt electronic equipment to be in the first working condition, such as the first slewing rate uniform rotation;And occurring triggering thing
Part is such as sent a telegram here, by the control mechanical structure of controller 1503 to drive object pointer 1501 to be moved with the second state, with
Prompt electronic equipment is in the second working condition, such as accelerates to rotate or/and stop motionless to be higher than the revolving speed of the first slewing rate
Deng passing through different dynamic structure in the present embodiment as a result, and control mechanical structure object pointer 1501 is driven to enter different shapes
State is moved, and then is moved with different states to prompt working condition locating for electronic equipment.In this course,
Power supply 1504 is that the control mechanical structure of controller 1503 drives object pointer 1501 to carry out movement increase power.
By above scheme it is found that a kind of electronic equipment that the embodiment of the present application three provides, by different instruction progress
Response is in different working conditions to controlling electronic devices, and under different working conditions, the target on electronic equipment refers to
Needle is moved with different states, goes to show other letters without independent component is arranged on electronic equipment such as stem-winder
Breath, by the object pointer of electronic equipment can characterization of electronic equipment different working conditions, do not increasing component as a result,
In the case where increase the usage mode of electronic equipment, bring usage experience more abundant for user.
In one implementation, if electronic equipment is in the first working condition and controller 1503 does not control mechanical knot
Structure with drive object pointer 1501 move, then clockwork spring drive mechanism with drive object pointer 1501 enter first state into
Row uniform motion.That is, if electronic equipment is in the first working condition, it can be by mechanical structure to drive object pointer
1501 are moved with first state, drive object pointer 1501 to enter first state progress by clockwork spring drive mechanism even
Speed movement, controller 1503 no longer controls mechanical structure at this time.In addition, if electronic equipment is in the second work shape
State, then be still by the control mechanical structure of controller 1503 to drive object pointer 1501 to be moved with the second state, by
This, in the present embodiment, supplies power to mechanical structure by voltage by controller 1503 to drive object pointer 1501 with difference
State moved, so that electronic equipment be prompted to be in different working conditions.
Hereinbefore scheme it should be noted that the specific implementation of each component in the present embodiment electronic equipment can refer to
1- Figure 13 and related content, and will not be described here in detail.
For the electronic equipment of another embodiment disclosed by the invention by taking wrist-watch as an example, the corresponding check and correction of time is also the second work
Make state.For example, a time synchronization is carried out with the mobile phone of wrist-watch connection guarantee that the timer acquisition of wrist-watch is synchronous
Current time, the controller of wrist-watch by the timer of wrist-watch control indicator with the movement of the second slewing rate be adjusted to it is current when
Between matched position.The motion process is also that wrist-watch is carrying out the check and correction of time at that time for prompting user.So relative to
Prior art watch hand only moves prompt watch according to set clockwise direction and is in unique working condition difference.This
The second work that electronic equipment at least supports the first working condition different from first working condition in the disclosed embodiment of invention
Make both states working condition.And electronic equipment, which is in the second working condition, to be switched based on triggering from the first working condition
Instruction difference to the second working condition makes different prompts with the movement of watch hand and/or the pause of specific position.
Each embodiment in this specification is described in a progressive manner, the highlights of each of the examples are with other
The difference of embodiment, the same or similar parts in each embodiment may refer to each other.For device disclosed in embodiment
For, since it is corresponded to the methods disclosed in the examples, so being described relatively simple, related place is said referring to method part
It is bright.
Professional further appreciates that, unit described in conjunction with the examples disclosed in the embodiments of the present disclosure
And algorithm steps, can be realized with electronic hardware, computer software, or a combination of the two, in order to clearly demonstrate hardware and
The interchangeability of software generally describes each exemplary composition and step according to function in the above description.These
Function is implemented in hardware or software actually, the specific application and design constraint depending on technical solution.Profession
Technical staff can use different methods to achieve the described function each specific application, but this realization is not answered
Think beyond scope of the present application.
The step of method described in conjunction with the examples disclosed in this document or algorithm, can directly be held with hardware, processor
The combination of capable software module or the two is implemented.Software module can be placed in random access memory (RAM), memory, read-only deposit
Reservoir (ROM), electrically programmable ROM, electrically erasable ROM, register, hard disk, moveable magnetic disc, CD-ROM or technology
In any other form of storage medium well known in field.
The foregoing description of the disclosed embodiments makes professional and technical personnel in the field can be realized or use the application.
Various modifications to these embodiments will be readily apparent to those skilled in the art, as defined herein
General Principle can be realized in other embodiments without departing from the spirit or scope of the application.Therefore, the application
It is not intended to be limited to the embodiments shown herein, and is to fit to and the principles and novel features disclosed herein phase one
The widest scope of cause.
Claims (10)
1. a kind of control method, comprising:
In response to the first instruction, controlling electronic devices is in the first working condition, wherein if the electronic equipment is in first
The object pointer of working condition, the electronic equipment is moved with first state;
In response to the second instruction, controls the electronic equipment and be in the second working condition, wherein if the electronic equipment is in
Second working condition, the object pointer are moved with the second state;
First working condition of the electronic equipment and second working condition of the electronic equipment are different.
2. according to the method described in claim 1, it is characterized by:
If the electronic equipment is in the first working condition, the electronic equipment is carried out by the movement of the object pointer
The prompt of first working condition;
If the electronic equipment is in second working condition, the electronic equipment passes through the stop place of the object pointer
It sets to carry out the prompt of second working condition, or/and, the electronic equipment is carried out by the movement of the object pointer
The prompt of second working condition.
3. according to the method described in claim 2, it is characterized in that, if the electronic equipment is in the second working condition, institute
Object pointer is stated to be moved with the second state, comprising:
If the electronic equipment is in the second working condition, the object pointer is rotated axial preset with target rotational direction
The rotation of first object position;
Or
The object pointer is rotated to the first object position around the shaft with the target rotational direction and is maintained at institute
State first object position;
Or
The object pointer is rotated to the first object position around the shaft with the target rotational direction and described
One target position is swung.
4. according to the method described in claim 3, it is characterized in that, the object pointer is rotated axially in advance with target rotational direction
If first object position rotation, comprising:
The object pointer is rotated axial preset first object position uniform rotation with preset second slewing rate, and described the
Two slewing rates are greater than the first slewing rate;First slewing rate is if the electronic equipment is in the first working condition
Under the slewing rate that is rotated clockwise around the shaft of the object pointer;
Or
The object pointer is added to the first object position according to preset acceleration with target rotational direction around the shaft
Speed rotation.
5. if the method according to claim 1, wherein the electronic equipment is in the second work shape
State, the object pointer are moved with the second state, comprising:
If electronic equipment is switched to second working condition, the movement of the object pointer is controlled from the first state
Switch to second state;
Or/and;
If the electronic equipment is in the first working condition, the object pointer of the electronic equipment is carried out with first state
Movement, comprising:
If electronic equipment is switched to first working condition, the movement of the object pointer is controlled from second state
Switch to the first state.
6. according to the method described in claim 5, it is characterized by further comprising:
Current time is obtained from destination apparatus;
Wherein, the movement of the control object pointer switches to the first state from second state, comprising:
It controls the object pointer and the first state is switched to for starting direction position with the current time corresponding position.
7. according to the method described in claim 6, it is characterized in that, the control object pointer is with the current time pair
The position answered is that starting direction position switches to the first state, comprising:
If from the object pointer switch to the first state before currently point to be less than described work as at the time of position corresponds to
Preceding moment and the two difference are less than preset time threshold, and controlling the object pointer acceleration, to turn to the current time corresponding
Position and the movement for starting the first state;
If from the object pointer switch to the first state before currently point to be less than described work as at the time of position corresponds to
Preceding moment and the two difference are greater than the time threshold, the object pointer it is described currently point to position and stop described current when
Carve with it is described currently point to position it is corresponding at the time of between at the time of difference start the movement of the first state again;
If from the object pointer switch to the first state before currently point to be greater than described work as at the time of position corresponds to
Preceding moment and the two difference are less than the time threshold, the object pointer it is described currently point to position and stop described current when
Carve with it is described currently point to position it is corresponding at the time of between at the time of difference start the movement of the first state again;
If from the object pointer switch to the first state before currently point to be greater than described work as at the time of position corresponds to
Preceding moment and the two difference are greater than the time threshold, and controlling the object pointer acceleration, to turn to the current time corresponding
Position and the movement for starting the first state.
8. the method according to claim 1, wherein the object pointer is moved with the second state, comprising:
The object pointer rotates axial preset object pointer range rotation, and second be directed toward within the scope of the object pointer
Target position, relative position of second target position within the scope of object pointer thing corresponding with second instruction
Part schedule parameter is corresponding.
9. a kind of electronic equipment, comprising:
Object pointer;
First control module, in response to the first instruction, controlling electronic devices to be in the first working condition, wherein if institute
It states electronic equipment and is in the first working condition, the object pointer of the electronic equipment is moved with first state;
Second control module, for controlling the electronic equipment and being in the second working condition, wherein such as in response to the second instruction
Electronic equipment described in fruit is in the second working condition, and the object pointer is moved with the second state;
First working condition of the electronic equipment and second working condition of the electronic equipment are different.
10. a kind of electronic equipment, comprising:
Object pointer;
Machine core, including mechanical structure and clockwork spring, the clockwork spring is for driving the mechanical structure to drive the object pointer fortune
It is dynamic;
Controller drives the object pointer to move for controlling the mechanical structure;
Power supply, if controlling the mechanical structure for the controller to drive the object pointer to move, the power supply is mentioned
The power of the mechanical structure is driven for the controller;
Wherein, if the electronic equipment is in the first working condition, the controller controls the mechanical structure to drive
It states object pointer and enters first state and moved;
If the electronic equipment is in the second working condition, the controller controls the mechanical structure to drive the target
Pointer enters the second state and is moved.
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CN201811211542.8A CN109375539A (en) | 2018-10-17 | 2018-10-17 | A kind of control method and electronic equipment |
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CN201811211542.8A CN109375539A (en) | 2018-10-17 | 2018-10-17 | A kind of control method and electronic equipment |
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CN110300447A (en) * | 2019-06-28 | 2019-10-01 | 联想(北京)有限公司 | A kind of control method and equipment |
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