CN108089430B - Watch capable of automatically adjusting pointer to preset position - Google Patents

Abstract

A watch capable of automatically adjusting hands to a preset position, the watch comprising: the device comprises at least one metal pointer and a motor for driving the at least one metal pointer to rotate; the touch screen comprises a surface and a capacitive touch module, wherein the capacitive touch module is arranged on the surface; the circuit comprises a capacitive touch block and a metal pointer; when the metal pointer is positioned right above the capacitive touch block, the capacitive touch block and the metal pointer form a capacitor and exist in the circuit to form a loop; and the processor is connected with the motor, can judge whether the circuit forms a loop or not, and can judge whether the loop is disconnected or not. Through the mode, a user does not need to adjust the pointer to the zero position by naked eyes, and the pointer can be automatically adjusted to the preset position through the watch.

Description

Watch capable of automatically adjusting pointer to preset position

Technical Field

The invention relates to a watch, in particular to a watch capable of automatically adjusting a pointer to a preset position.

Background

When the pointer of the existing watch is adjusted, manual adjustment is generally adopted, the surface needs to be observed by naked eyes, and then the pointer is rotated to a required position. In order to liberate users, watches capable of being automatically adjusted are gradually provided at present, the adjustment mode is based on the fact that the position of a physical pointer of the watch is judged firstly, the current mainstream is to adopt a camera to shoot the surface of the watch, judge the position of the pointer in an image recognition mode, and then enable the pointer to rotate to a corresponding time position in order to adjust time.

The method depends on photographing equipment except the watch accident, such as a mobile phone, needs a special module for image identification, increases the power consumption of the watch, and generates misjudgment possibly due to the influence of light on the image identification; fourthly, in the process of adjustment, the prior art generally adjusts through time.

The above information disclosed in this background section is only for enhancement of understanding of the background of the disclosure and therefore it may contain information that does not constitute prior art that is already known to a person of ordinary skill in the art.

Disclosure of Invention

The present invention provides a wristwatch capable of automatically adjusting a pointer to a predetermined position based on the above-mentioned drawbacks, and a user can automatically adjust the pointer to the predetermined position without knowing the physical position of the pointer at present. The specific technical scheme of the invention is as follows:

the utility model provides a can transfer wrist-watch of pointer to preset position automatically which characterized in that:

the watch includes:

the device comprises at least one metal pointer and a motor for driving the at least one metal pointer to rotate;

the touch screen comprises a surface and a capacitive touch module, wherein the capacitive touch module is arranged on the surface;

the circuit comprises a capacitive touch block and a metal pointer; when the metal pointer is positioned right above the capacitive touch block, the capacitive touch block and the metal pointer form a capacitor and exist in the circuit to form a loop;

the processor is connected with the motor, can judge whether the circuit forms a loop or not, and can judge whether the loop is disconnected or not;

the processor comprises a position adjusting module, and when the processor judges that a circuit forms a loop, the position adjusting module controls the processor to control any pointer to rotate; when the processor judges that the loop is disconnected, the position adjusting module controls the motor to stop driving any pointer, and controls the motor to drive any pointer to rotate by a preset angle to reach a preset position again.

Further, the processor further comprises a starting pointer position adjusting module, and when the position adjusting module is enabled, the processor firstly starts the pointer position adjusting module:

when the processor detects that the circuit forms a loop, the pointer position adjusting module drives the first pointer to rotate by an angle threshold according to a preset pointer sequence, if the circuit is still in a loop state at the moment, the pointer position adjusting module drives the second pointer to rotate by the angle threshold according to a preset sequence, and if the circuit is still in the loop state at the moment, the pointer position adjusting module drives the third pointer to rotate by the angle threshold according to the preset sequence; if the circuit is still in a loop state at the moment, the pointer position adjusting module drives the first pointer to rotate by an angle threshold again according to a preset pointer sequence, and the process is circulated until the processor detects that the loop is disconnected.

Furthermore, the capacitance touch block is a section of circular ring concentric with the surface, and when the at least one metal pointer rotates for a circle and is positioned right above the capacitance touch block, the at least one metal pointer and the capacitance touch block can be matched to form a capacitor, so that the circuit forms a loop.

Furthermore, the angle of the section of the annular capacitive touch block is A when viewed from the center of the character surface; the capacitive touch pad comprises a beginning loop edge 101, a middle loop edge, and an end loop edge 102, when viewed clockwise, the circuit forming a loop when the at least one metal pointer is between the beginning loop edge 101 and the end loop edge 102.

Further, the loop centerline coincides with the zero position of the face.

Further, the preset angle is a/2, and in the third step, the processor controls the motor to drive any pointer to rotate counterclockwise by the preset angle a/2 to reach the preset position of the zero point.

Further, the preset angle is 6 degrees.

Further, the angle threshold is equal to the angle a.

Through the mode, a user does not need to adjust the pointer to the zero position by naked eyes, and the pointer can be automatically adjusted to the preset position through the watch.

Drawings

The above and other objects, features and advantages of the present invention will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings.

FIG. 1 is a schematic representation of the surface of the present invention.

FIG. 2 is a schematic diagram of a capacitive touch block of the present invention.

Detailed Description

Example embodiments will now be described more fully with reference to the accompanying drawings. Example embodiments may, however, be embodied in many different forms and should not be construed as limited to the examples set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of example embodiments to those skilled in the art. The drawings are merely schematic illustrations of the invention and are not necessarily drawn to scale. The same reference numerals in the drawings denote the same or similar parts, and thus their repetitive description will be omitted.

Furthermore, the described features, structures, or characteristics may be combined in any suitable manner in one or more embodiments. In the following description, numerous specific details are provided to provide a thorough understanding of embodiments of the invention. One skilled in the relevant art will recognize, however, that the invention may be practiced without one or more of the specific details, or with other methods, components, devices, steps, and so forth. In other instances, well-known structures, methods, devices, implementations, or operations are not shown or described in detail to avoid obscuring aspects of the invention.

As shown in fig. 1, the watch comprises a surface 1, a capacitive touch block 2, a minute hand 3, an hour hand 4 and/or an hour hand; during the rotation of the pointer, there may be a track 5 of pointer detection points.

In the schematic diagram, only the time minute hand is drawn for convenience, and in fact, the same holds true for other possibly existing hands such as the second hand, and the like.

As shown in fig. 2, when viewed from the center of the character surface, the angle 103 of the circular ring type capacitive touch block is a; the capacitive touch block FPC has a loop start edge 101, a loop neutral line and a loop end edge 102, the circuit forming a loop when the at least one metal pointer is between the loop start edge 101 and the loop end edge 102. In areas outside the capacitive touch block, the metal pointer and capacitive touch block do not cause the circuit to loop.

When the metal pointer is rotated right above the FPC, a low level signal is triggered, and the processor can detect the signal to judge that the circuit forms a loop. When the low signal disappears, the loop is open.

At the beginning of detection, if any pointer is right above the capacitive touch block, the circuit is a loop at the beginning, and at this moment, the influence in this aspect needs to be eliminated, and the elimination method is to set an initial pointer position adjusting module in the processor: when the processor detects that the circuit forms a loop, the initial pointer position adjusting module drives a first pointer to rotate by an angle threshold according to a preset pointer sequence, if the circuit is still in a loop state at the moment, the initial pointer position adjusting module drives a second pointer to rotate by the angle threshold according to a preset sequence, and if the circuit is still in the loop state at the moment, the initial pointer position adjusting module drives a third pointer to rotate by the angle threshold according to a preset sequence; if the circuit is still in a loop state at the moment, the initial pointer position adjusting module drives the first pointer to rotate by an angle threshold again according to a preset pointer sequence, and the process is circulated until the processor detects that the loop is disconnected.

The angle threshold value can be just the angle of a segment of circular ring type capacitive touch block as A. In this way, the pointer, which is just above the capacitive touch block, can be made to move completely outside the capacitive touch block.

During the detection, after the influence of the detection indicating circuit, namely the loop, is eliminated, the processor continuously controls the motor to drive the metal pointer to rotate. One sequence may be set, such as hour, minute and second, although other sequences are possible, with one hand adjusted and the remaining hands adjusted.

When the processor judges that a circuit forms a loop, the position adjusting module controls the processor to control any pointer to rotate; when the processor judges that the loop is disconnected, the position adjusting module controls the motor to stop driving any pointer, and controls the motor to drive any pointer to rotate by a preset angle to reach a preset position again.

Through the mode, a user does not need to adjust the pointer to the zero position by naked eyes, and the pointer can be automatically adjusted to the preset position through the watch.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (6)

1. The utility model provides a can transfer wrist-watch of pointer to preset position automatically which characterized in that:

the watch includes:

the device comprises at least one metal pointer and a motor for driving the at least one metal pointer to rotate;

the touch device comprises a surface and a capacitive touch block, wherein the capacitive touch block is arranged on the surface;

the circuit comprises a capacitive touch block and a metal pointer; the capacitive touch block is a section of circular ring concentric with the surface, and when the at least one metal pointer rotates for a circle and is positioned right above the capacitive touch block, the at least one metal pointer and the capacitive touch block can be matched to form a capacitor, so that the circuit forms a loop;

the processor is connected with the motor, can judge whether the circuit forms a loop or not, and can judge whether the loop is disconnected or not;

the processor comprises a starting pointer position adjusting module, and after the processor starts the starting pointer position adjusting module, when the processor judges that a circuit forms a loop, the starting pointer position adjusting module controls the processor to control the following operations: the initial pointer position adjusting module drives a first pointer to rotate by an angle threshold according to a preset pointer sequence, if the circuit is still in a loop state at the moment, the initial pointer position adjusting module drives a second pointer to rotate by the angle threshold according to the preset sequence, and if the circuit is still in the loop state at the moment, the initial pointer position adjusting module drives a third pointer to rotate by the angle threshold according to the preset sequence; if the circuit is still in a loop state at the moment, the initial pointer position adjusting module drives the first pointer to rotate by an angle threshold again according to a preset pointer sequence, and the process is circulated until the processor detects that the loop is disconnected;

when the processor judges that the loop is disconnected, the starting pointer position adjusting module controls the motor to stop driving any pointer, and controls the motor to drive any pointer to rotate by a preset angle to reach a preset position again.

2. The watch capable of automatically adjusting the hands to the preset position according to claim 1, wherein the angle of the circular ring-shaped capacitive touch block is A when viewed from the center of the word; the capacitive touch pad includes a beginning loop edge, a middle loop edge, and an end loop edge, as viewed in a clockwise direction, the circuit forming a loop when the at least one metal pointer is between the beginning loop edge and the end loop edge.

3. A wristwatch capable of automatically adjusting hands to a predetermined position according to claim 2, wherein the centerline of the circuit coincides with the zero position of the face.

4. The watch according to claim 3, wherein the predetermined angle is A/2, and the processor controls the motor to drive any of the hands to rotate counterclockwise by the predetermined angle A/2 to reach the predetermined position of zero.

5. The watch according to claim 4, wherein said predetermined angle is 6 degrees.

6. A watch capable of automatically adjusting hands to preset positions, according to claim 5, characterized in that said threshold angle is equal to said angle A.

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