Disclosure of Invention
The invention aims to overcome the defects that an intelligent watch only has one screen, the display modes are few, and the interaction mode is simple in the prior art, and provides a double-screen intelligent watch.
The invention solves the technical problems through the following technical scheme:
a dual-screen smart watch, comprising: the dial plate comprises a dial plate main body, a first display screen, a second display screen and a switching unit;
the first display screen and the second display screen are respectively arranged on two sides of the dial plate main body;
the switching unit is used for lighting one of the first display screen and the second display screen and turning off the other display screen.
Optionally, the dual-screen smart watch further includes an outer frame, the outer frame surrounds the dial plate main body, the dial plate main body is connected to the outer frame through a rotating shaft, the dial plate main body rotates along the rotating shaft, and the switching unit is further configured to light one of the first display screen and the second display screen according to a state of rotation of the dial plate main body and extinguish the other display screen.
Optionally, the dual-screen smart watch further includes a battery, the switching unit includes a first loop and a second loop, and the first loop and the second loop are electrically connected to the battery respectively;
when the first loop is closed, the second loop is disconnected, and the battery outputs electric energy to the first display screen;
when the second loop is closed, the first loop is disconnected, and the battery outputs electric energy to the second display screen.
Optionally, the first loop includes a first wire segment disposed in the outer frame, the second loop includes a second wire segment disposed in the outer frame, and a third wire segment is disposed on the dial plate main body;
when the dial plate main body rotates to a first preset position, the first lead section is connected with the third lead section, and the first loop is closed;
when the dial plate main body rotates to a second preset position, the second lead section is connected with the third lead section, and the second loop is closed.
Optionally, the switching unit includes a first motor, and the first motor drives the rotating shaft to rotate.
Optionally, the switching unit further includes a second motor, a slide rail is disposed on the inner side of the outer frame, and the dial plate main body is connected to the slide rail through the rotating shaft; the second motor drives the sliding rail to slide out of or into the outer frame.
Optionally, the switching unit further includes a command generating unit, the command generating unit is configured to generate a switching command, and the first motor is configured to drive the rotating shaft to rotate according to the switching command.
Optionally, the dual-screen smart watch further includes a battery, the instruction generating unit includes an electric quantity detecting unit, the electric quantity detecting unit is configured to detect an electric quantity of the battery, and the electric quantity detecting unit is further configured to generate a switching instruction according to the electric quantity.
Optionally, the instruction generating unit includes a light sensor, the light sensor is configured to detect ambient light brightness, and the light sensor is further configured to generate a switching instruction according to the ambient light brightness.
Optionally, the power consumption of the second display screen is less than the power consumption of the first display screen.
The positive progress effects of the invention are as follows: the double-screen intelligent watch is provided with two screens, so that more display modes are provided for a user, and richer interaction modes are provided.
Detailed Description
The invention is further illustrated by the following examples, which are not intended to limit the scope of the invention.
Example 1
The present embodiment provides a dual-screen smart watch, as shown in fig. 1, the dual-screen smart watch includes a watch face main body 101, a first display screen 102, a second display screen (not shown in the figure), and a switching unit (not shown in the figure). First display screen and second display screen set up respectively in the two sides of dial plate main part. The switching unit is used for lighting one of the first display screen and the second display screen and turning off the other display screen. Other parts such as watchbands of this double-screen smart watch, not shown in the figure, the mode of setting up other parts such as watchbands can be realized according to the knowledge that description, description attached drawing and mastered to the skilled person, and the no longer repeated description here.
As an alternative implementation manner, referring to fig. 1, the dual-screen smart watch of this embodiment further includes an outer frame 103, where the outer frame 103 surrounds the dial main body 101, the dial main body 101 is connected to the outer frame 103 through a rotating shaft 104, and the dial main body 101 rotates along the rotating shaft 104. The shaft 104 is not visible and is therefore characterized by a dashed line. The switching unit performs switching control according to the state of rotation of the dial main body. When the first display screen 102 rotates to the upper side, the switching unit lights up the first display screen 102 and lights out the second display screen; when the second display screen rotates to the upper side, the switching unit lights the second display screen and extinguishes the first display screen.
The double-screen intelligent watch of the embodiment displays through the switching of the two display screens, and provides more display modes for users and richer interaction modes.
Example 2
The present embodiment provides a dual-screen smart watch, as shown in fig. 2, the dual-screen smart watch includes a watch dial main body, a first display screen 102, a second display screen (not shown in the figure), and a switching unit (not shown in the figure). First display screen and second display screen set up respectively in the two sides of dial plate main part. The switching unit is used for lighting one of the first display screen and the second display screen and turning off the other display screen.
The double-screen intelligent watch of this embodiment still includes frame 103, and frame 103 surrounds the dial plate main part, and the dial plate main part is connected with frame 103 through a pivot 104, and the dial plate main part is rotatory along pivot 104. The shaft 104 is not visible and is therefore characterized by a dashed line. The outer frame 103 and the dial main body are both rectangular.
Referring to fig. 2, the dual-screen smart watch of the present embodiment further includes a battery B, where the battery B is disposed inside the dial main body, and for convenience of description, the battery B is represented by a circuit symbol of a power supply in the drawing. The switching unit includes a first circuit and a second circuit, which are electrically connected to the battery B, respectively. When the first loop is closed, the second loop is disconnected, the battery outputs electric energy to the first display screen, and the first display screen is lightened. When the second loop is closed, the first loop is disconnected, the battery outputs electric energy to the second display screen, and the second display screen is lightened.
As an alternative embodiment, referring to fig. 2, the first loop includes a first wire segment 11 disposed in the outer frame 103, the second loop includes a second wire segment 12 disposed in the outer frame 103, and a third wire segment 106 is disposed on the dial main body. For convenience of explanation, the first wire segment 11 is indicated by a solid line, the second wire segment 12 is indicated by a broken line, and the first wire segment 11 and the second wire segment 12 have a common portion and are indicated by a solid line. The first wire segment 11 includes a plurality of metal wires, and the plurality of metal wires are connected in series with the battery B and the first display screen to form a current loop. The first wire segment 11 is provided with a first terminal P1 and a second terminal P2, and the first terminal P1 and the second terminal P2 are respectively electrically connected to a power interface of the first display screen. The first wire segment 11 is further provided with a fifth terminal P5 and a sixth terminal P6. The second wire segment 12 is provided with a third terminal P3 and a fourth terminal P4, and the third terminal P3 and the fourth terminal P4 are electrically connected to a power interface of the second display screen, respectively. The second wire segment 12 is further provided with a seventh terminal P7 and an eighth terminal P8. The ninth terminal P9 and the tenth terminal P10 are respectively disposed at two ends of the third wire segment 106.
Referring to fig. 2, when the dial body is rotated to the first preset position, that is, the first display screen 102 is located above, and the dial body and the outer frame 103 are located on the same plane, the ninth terminal P9 contacts with the fifth terminal P5, the tenth terminal P10 contacts with the sixth terminal P6, so that the first wire segment 11 is connected with the third wire segment 106, the first loop is closed, the battery B outputs electric energy to the first display screen, and the first display screen is lighted. At this time, the seventh terminal P7 and the eighth terminal P8 are disconnected from each other, and the second display screen cannot obtain electric power and is in an off state.
Referring to fig. 3, when the dial body is rotated to the second preset position, that is, the second display screen 108 is located above, and the dial body and the outer frame 103 are located on the same plane, the ninth terminal P9 is in contact with the seventh terminal P7, the tenth terminal P10 is in contact with the eighth terminal P8, so that the second wire segment 12 is connected to the third wire segment 106, the second loop is closed, the battery B outputs power to the second display screen, and the second display screen is lighted. At this time, the fifth terminal P5 and the sixth terminal P6 are disconnected from each other, and the first display screen cannot obtain electric power and is in an off state.
In this embodiment, the switching unit includes a first motor (not shown), and the first motor drives the rotating shaft to rotate. The arrangement mode of the first motor and the connection mode of the first motor and the rotating shaft can be realized by those skilled in the art according to the description and drawings of the specification and in combination with the mastery knowledge, and are not described herein again.
As an alternative embodiment, the power consumption of the second display screen is smaller than the power consumption of the first display screen. For example, the first display screen is a color screen, and the second display screen is an electronic ink screen. When the user wishes to have a longer duration, the second display screen may be rotated up to reduce power consumption and increase the duration.
In order to realize intelligent automatic adjustment, the switching unit further includes an instruction generating unit (not shown in the figure), the instruction generating unit is used for generating a switching instruction, and the first motor is used for driving the rotating shaft to rotate according to the switching instruction.
In this embodiment, the instruction generation unit includes electric quantity detection unit, and electric quantity detection unit is connected with the battery electricity of this double screen smart watch for detect the electric quantity of battery, electric quantity detection unit still is used for producing switching instruction according to the electric quantity. When the electric quantity is not lower than the preset electric quantity threshold value, the electric quantity detection unit sends a switching instruction for rotating the first display screen to the upper side, and the first motor drives the rotating shaft to rotate according to the switching instruction to rotate the first display screen to the upper side; when the electric quantity is lower than the preset electric quantity threshold value, the electric quantity detection unit sends out a switching instruction for rotating the second display screen to the upper side, the first motor drives the rotating shaft to rotate according to the switching instruction, and the second display screen is rotated to the upper side, so that the power consumption is reduced, and the endurance time is prolonged.
In this embodiment, the instruction generating unit further includes a light sensor (not shown in the figure), the light sensor is disposed on the outer frame and configured to detect the ambient light brightness, and the light sensor is further configured to generate the switching instruction according to the ambient light brightness. When the ambient light brightness is lower than a preset brightness threshold value, the light sensor sends a switching instruction for rotating the second display screen to the upper side, the first motor drives the rotating shaft to rotate according to the switching instruction, and the second display screen is rotated to the upper side, so that the display brightness is reduced, and the eyes of a user are protected; when ambient light luminance is not less than the preset luminance threshold value, light sensor sends and rotates first display screen to above switching instruction, and first motor drives the pivot rotation according to this switching instruction, rotates first display screen to above, provides the higher display effect of luminance for the user, and convenience of customers sees clearly.
Example 3
On the basis of embodiment 2, this embodiment provides a double-screen smart watch, and referring to fig. 4, the switching unit of the double-screen smart watch further includes a second motor (not shown in the figure), the inner side of the outer frame 103 is provided with a slide rail 109, and the dial plate main body 101 is connected with the slide rail 109 through a rotating shaft; the second motor drives the slide rail to slide out of or into the outer frame 103. The side wall of the outer frame 103 is provided with an opening 105 for the second motor to drive the slide rail to slide out or in.
When the electric quantity is not lower than the preset electric quantity threshold value, the electric quantity detection unit sends a switching instruction for rotating the first display screen to the upper side to the first motor and the second motor. After receiving the switching command, the second motor drives the sliding rail 109 to slide out of the outer frame 103. At the moment, the first loop and the second loop are both disconnected, and the first display screen and the second display screen are both turned off. When the sliding rail 109 slides to a preset position, the sliding is stopped. The first motor drives the dial plate main body 101 to rotate according to the switching instruction, so that the first display screen rotates to the upper surface. Then, the second motor slides into the inside of the outer frame 103 according to the switching instruction slide rail 109. When the dial main body 101 is attached to the outer frame 103, the slide rail 109 stops sliding. At this time, the first loop is closed, the first display screen is turned on, and the second display screen remains turned off.
When the electric quantity is lower than the preset electric quantity threshold value, the electric quantity detection unit sends a switching instruction for rotating the second display screen to the upper side to the first motor and the second motor. After receiving the switching command, the second motor drives the sliding rail 109 to slide out of the outer frame 103. At the moment, the first loop and the second loop are both disconnected, and the first display screen and the second display screen are both turned off. When the sliding rail 109 slides to a preset position, the sliding is stopped. The first motor drives the dial plate main body 101 to rotate according to the switching instruction, so that the second display screen rotates to the upper surface. Then, the second motor slides into the inside of the outer frame 103 according to the switching instruction slide rail 109. When the dial main body 101 is attached to the outer frame 103, the slide rail 109 stops sliding. At this time, the second loop is closed, the second display screen is lighted, and the first display screen is kept off.
The slide rail 109 allows the user to switch the display without having to release the wristband.
When the ambient light brightness is lower than the preset brightness threshold, the light sensor sends a switching instruction for rotating the second display screen to the upper side to the first motor and the second motor, and the second motor drives the sliding rail 109 to slide out of the outer frame 103 after receiving the switching instruction. At the moment, the first loop and the second loop are both disconnected, and the first display screen and the second display screen are both turned off. When the sliding rail 109 slides to a preset position, the sliding is stopped. The first motor drives the dial plate main body 101 to rotate according to the switching instruction, so that the second display screen rotates to the upper surface. Then, the second motor slides into the inside of the outer frame 103 according to the switching instruction slide rail 109. When the dial main body 101 is attached to the outer frame 103, the slide rail 109 stops sliding. At this time, the second loop is closed, the second display screen is lighted, and the first display screen is kept off.
When the ambient light brightness is not lower than the preset brightness threshold, the light sensor sends a switching instruction for rotating the first display screen to the upper side to the first motor and the second motor, and the second motor drives the sliding rail 109 to slide out of the outer frame 103 after receiving the switching instruction. At the moment, the first loop and the second loop are both disconnected, and the first display screen and the second display screen are both turned off. When the sliding rail 109 slides to a preset position, the sliding is stopped. The first motor drives the dial plate main body 101 to rotate according to the switching instruction, so that the first display screen rotates to the upper surface. Then, the second motor slides into the inside of the outer frame 103 according to the switching instruction slide rail 109. When the dial main body 101 is attached to the outer frame 103, the slide rail 109 stops sliding. At this time, the first loop is closed, the first display screen is turned on, and the second display screen remains turned off.
While specific embodiments of the invention have been described above, it will be appreciated by those skilled in the art that these are by way of example only, and that the scope of the invention is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the spirit and scope of the invention, and these changes and modifications are within the scope of the invention.