CN111240179A

CN111240179A - Hand-manipulating watch with step counting and indicating functions based on double-coil movement technology

Info

Publication number: CN111240179A
Application number: CN201911217908.7A
Authority: CN
Inventors: 刘以钦
Original assignee: Shenzhen Health Legend Technology Co ltd
Current assignee: Shenzhen Health Legend Technology Co ltd
Priority date: 2019-12-03
Filing date: 2019-12-03
Publication date: 2020-06-05

Abstract

The invention relates to a hand-manipulating watch with a step-counting indication function based on a double-coil movement technology, which comprises a minute hand and an hour hand, wherein the minute hand is independently controlled by a first movement, the hour hand is independently controlled by a second movement, and the first movement and the second movement are both double-coil movements; still including mutual fixed mounting's table upper cover and table drain pan together to and set up at inside microprocessor, PCB mainboard, battery, memory, the 3D acceleration sensor of table upper cover and table drain pan, microprocessor is connected with first core, second core, battery, memory, 3D acceleration sensor respectively through the PCB mainboard, and first core and second core pass through screw fixed mounting on table drain pan. The hand-manipulating watch can obtain the step counting data of the movement and the target step number completion rate through the hand-manipulating indication without being displayed by a display screen, thereby ensuring the beauty and the effect of the traditional hand-manipulating watch and saving the cost.

Description

Hand-manipulating watch with step counting and indicating functions based on double-coil movement technology

Technical Field

The invention relates to the field of intelligent watches, in particular to a hand-manipulating watch with a step counting and indicating function, which controls hand manipulating based on a double-coil core technology.

Background

Along with the rapid development of watch technology, watches are more and more intelligent, and especially multifunctional intelligent watches are more popular with people and can not be separated from the life of people gradually. In recent years, smart watches have been developed with increasing heat, and various smart watch manufacturers have successively released various smart watches. The smart watch is powerful in that the smart watch not only combines the functions of a smart phone to use except displaying time and timing, but also adds the functions of the smart bracelet, such as various functions of detecting sports data, human heart rate health, air pressure change, short message mail, voice interaction, navigation and the like.

The step counting data detection is one of the representatives of the new development function of the intelligent watch and one of the new configuration functions of the current intelligent watch. The intelligent watch detects from the watch of a wearer through the 3D acceleration sensor arranged on the intelligent watch, and can reflect real-time motion data of a human body. In order to obtain step counting data of human body movement, the existing watches are all displayed by a display screen or sent to a mobile phone in a wireless communication mode, and the user usually rarely carries the mobile phone with the watch in the movement process, so that the user cannot see the movement amount data in time. And adopt the display screen to show although can directly perceivedly obtain user's meter step data, but to traditional hand wrist-watch (especially many high-grade wrist-watches are still the hand wrist-watch), if also show meter step data through setting up the display screen, must change the structural design of hand wrist-watch, the hand show is sheltered from by the display screen very easily to the little hand wrist-watch of original volume and area, also increase the wrist-watch volume simultaneously, influence molding and pleasing to the eye, it is unacceptable to traditional hand wrist-watch fan. In addition, if the display screens are arranged at the same time, because the display fonts of the display screens are smaller, users who are a little older cannot clearly see the motion data conditions of the users, the observation of the hand-manipulating indication time is also influenced, and the production cost of the watch is increased due to the increase of the display screens.

Disclosure of Invention

The invention aims to overcome the defects and shortcomings of the prior art and provides the hand-manipulating watch with the step counting and indicating function, the hand-manipulating watch can obtain the step counting data of movement and the target step number completion rate through hand-manipulating indication without displaying through a display screen, the attractiveness and the effect of the traditional hand-manipulating watch are ensured, and the cost is also saved.

In order to achieve the above object, the present invention provides a hand-manipulating watch with a step-counting indication function based on a double-coil movement technology, the hand-manipulating watch comprising a minute hand and an hour hand for a time indication function, characterized in that the minute hand is independently controlled by a first movement, the hour hand is independently controlled by a second movement, and the first movement and the second movement are both double-coil movements;

the first machine core comprises a first stepping motor, a first microprocessor, a first coil and a second coil, the output end of the first microprocessor is respectively connected with the first coil and the second coil, the output ends of the first coil and the second coil are both connected with the first stepping motor, and after the first microprocessor sends an instruction to the first coil, the first coil generates a pulse signal and transmits the pulse signal to the first stepping motor, so that the first stepping motor controls the minute hand to rotate forwards; after the first microprocessor sends an instruction to a second coil, the second coil generates a pulse signal and transmits the pulse signal to the first stepping motor, so that the first stepping motor controls the minute hand to reversely rotate;

the second movement comprises a second stepping motor, a second microprocessor, a third coil and a fourth coil, the output end of the second microprocessor is respectively connected with the third coil and the fourth coil, the output ends of the third coil and the fourth coil are both connected with the second stepping motor, and when the second microprocessor sends an instruction to the third coil, the third coil generates a pulse signal and transmits the pulse signal to the second stepping motor, so that the second stepping motor controls the clockwise rotation; after the second microprocessor sends an instruction to the fourth coil, the fourth coil generates a pulse signal and transmits the pulse signal to the second stepping motor, so that the second stepping motor controls the clockwise rotation;

the hand-manipulating watch further comprises a watch upper cover and a watch bottom case which are fixedly mounted together, and a microprocessor, a PCB (printed circuit board), a battery, a memory and a 3D acceleration sensor which are arranged inside the watch upper cover and the watch bottom case, wherein the microprocessor is respectively connected with the first core, the second core, the battery, the memory and the 3D acceleration sensor through the PCB main board, and the first core and the second core are fixedly mounted on the watch bottom case through screws;

the first movement is also used for controlling the minute hand to indicate accumulated step counting data acquired through the 3D acceleration sensor; according to the size of the collected accumulated step counting data, the second movement controls the hour hand to indicate the completion rate of the target step count; when the accumulated step counting data and the target step counting completion rate need to be indicated, the microprocessor analyzes and processes the data according to the accumulated step counting data collected by the 3D acceleration sensor, and then respectively sends instructions to the first machine core and the second machine core, the first machine core controls the minute hand to rotate forwards or backwards to indicate the accumulated step counting data, and meanwhile, the second machine core controls the hour hand to rotate forwards or backwards to indicate the target step counting completion rate.

According to one embodiment of the invention, the hand-manipulating watch further comprises a hand-manipulating face which is fixedly arranged above the first movement and the second movement, a rotating shaft of the first movement penetrates through the hand-manipulating face and then is connected with the minute hand, and the minute hand is controlled to operate by the rotating shaft of the first movement; the rotating shaft of the second movement penetrates through the dial face of the watch and then is connected with the hour hand, the hour hand is controlled to rotate through the rotating shaft of the second movement, and the rotating shaft of the first movement and the rotating shaft of the second movement are not coaxial.

According to one embodiment of the invention, the minute hand and the hour hand, which are located above the face of the hands of the watch, are located on different planes or on the same plane.

According to one embodiment of the invention, the dial face of the watch is provided with two areas, namely a minute hand operation area and an hour hand operation area, the minute hand operation area and the hour hand operation area have intersection or no intersection, the minute hand operation area is provided with an accumulated step counting data scale, and the hour hand operation area is provided with a target step number completion rate scale.

According to one embodiment of the present invention, the scales of the accumulated step count data are 0, 5000, 1 ten thousand, 2 ten thousand, 4 ten thousand, and 6 ten thousand, and the scales of the target step completion rate are 0, 20%, 50%, 100%, 150%, 200%, and 300%.

According to one embodiment of the invention, the hand-manipulating watch further comprises an inner shadow, and the inner shadow is fixedly arranged on the watch bottom shell through screws arranged at three corners of four corners of the inner shadow.

According to one embodiment of the invention, the hand-manipulating watch further comprises an NFC module and a Bluetooth communication module, the NFC module is bonded on the bottom surface of the inner shadow in an adhesive mode, and the Bluetooth communication module is connected with the microprocessor.

According to one embodiment of the invention, the hand-manipulating watch further comprises an LED indicator lamp arranged on the lower side of one of the four corners of the inner shadow, a functional module and a functional key arranged on the side edge of the watch bottom shell, wherein the functional module is connected with the functional key, and the functional module and the LED indicator lamp are in communication connection with the microprocessor through the PCB mainboard.

According to one embodiment of the invention, the hand-manipulating watch further comprises a motor and a charging module which are both fixedly arranged on the watch bottom case, the motor and the charging device are electrically connected with the microprocessor through the PCB mainboard, the charging module is connected with the battery, one side of the charging module is provided with a magnet, the other side of the charging module is provided with the motor, and peripheral charging electromagnetism is attracted by the magnetic force of the motor and the magnet so as to charge.

Compared with the prior art, the invention has the following beneficial effects: the hand-manipulating watch with the step counting indication function can obtain the step counting data of the movement and the target step number completion rate through the hand-manipulating indication without being displayed by a display screen, thereby ensuring the beauty and the effect of the traditional hand-manipulating watch and saving the cost.

Drawings

FIG. 1 is a schematic diagram of a hand-setting watch with a step count indication function according to the present invention;

FIG. 2 is a schematic view of a first core structure according to the present invention;

fig. 3 is a schematic structural diagram of a second movement according to the invention;

FIG. 4 is a schematic view of an embodiment of the present invention;

fig. 5 is an exploded view of the structure of the hand watch with step-counting indication function according to the present invention.

Detailed Description

The present invention will be described in further detail with reference to examples and drawings, but the present invention is not limited to these examples.

As shown in fig. 1 to 5, the present invention provides a hand watch with a step counting indication function based on a dual coil movement technology, the hand watch includes a minute hand 31 and an hour hand 32 for time indication function, the minute hand 31 is independently controlled by a first movement (not shown in fig. 5 due to shielding), the hour hand 32 is independently controlled by a second movement 41, that is, the minute hand 31 and the hour hand 32 are respectively controlled by two movements, unlike the case where one movement is adopted in the market to control the minute hand, the hour hand, and even the second hand, the first movement and the second movement 41 are both dual coil movements. In the embodiment of the invention, the hand watch does not have a second hand. The first machine core comprises a first stepping motor, a first microprocessor, a first coil and a second coil, the output end of the first microprocessor is respectively connected with the first coil and the second coil, the output ends of the first coil and the second coil are both connected with the first stepping motor, and when the first microprocessor sends an instruction to the first coil, the first coil generates a pulse signal and transmits the pulse signal to the first stepping motor, so that the first stepping motor controls the minute hand to rotate forwards; after the first microprocessor sends an instruction to the second coil, the second coil generates a pulse signal and transmits the pulse signal to the first stepping motor, so that the first stepping motor controls the minute hand to reversely rotate;

the second movement 41 comprises a second stepping motor, a second microprocessor, a third coil and a fourth coil, the output end of the second microprocessor is respectively connected with the third coil and the fourth coil, the output ends of the third coil and the fourth coil are both connected with the second stepping motor, and when the second microprocessor sends an instruction to the third coil, the third coil generates a pulse signal and transmits the pulse signal to the second stepping motor, so that the second stepping motor controls the clockwise rotation; when the second microprocessor sends an instruction to the fourth coil, the fourth coil generates a pulse signal and transmits the pulse signal to the second stepping motor, so that the second stepping motor controls the hour hand to rotate reversely;

in the embodiment of the invention, as shown in fig. 5, the hand watch further comprises an upper watch cover 1 and a bottom watch case 2 which are fixedly mounted together, and a microprocessor, a PCB main board 5, a battery 6, a memory and a 3D acceleration sensor 7 which are arranged inside the upper watch cover 1 and the bottom watch case 2, wherein the upper watch cover 1 is made of a transparent material cover plate, can be made of plastic or glass, and is fixed on the bottom watch case 2 through gluing or buckling. The microprocessor, the battery 6, the memory and the 3D acceleration sensor 7 are integrated on the PCB mainboard 5, the microprocessor is respectively connected with the first machine core, the second machine core 41, the battery 6, the memory and the 3D acceleration sensor 7 through the PCB mainboard 5, and the first machine core and the second machine core 41 are fixedly installed on the watch bottom case 2 through screws;

the hand-knitting watch collects the accumulated step counting data of the wearer through the 3D acceleration sensor 7, and the accumulated step counting data can be the accumulated step counting data of the current day, the accumulated step counting data of the current week, the accumulated step counting data of the current month and the like. In order to enable a wearer to timely and visually obtain self exercise step counting data without influencing the traditional appearance and effect of the hand-manipulating watch, the accumulated step counting data is directly indicated by minute hand without increasing a display screen for step counting data display. The microprocessor analyzes and processes data after receiving accumulated step counting data collected by the 3D acceleration sensor, and sends an instruction to a first microprocessor of a first machine core, the first microprocessor controls a first coil to generate a frequency pulse signal corresponding to forward rotation of a minute hand or controls a second coil to generate a frequency pulse signal corresponding to reverse rotation of the minute hand, finally, a first stepping motor controls the minute hand to forward or reverse according to the received frequency pulse signal and advances to the position of a corresponding accumulated step counting data scale, whether the minute hand is forward rotation or reverse rotation reaches the scale position of the corresponding step counting data is determined according to the time when the minute hand advances to the position of the corresponding step counting data or the step number required by the first stepping motor, namely if the time for forward rotation to reach is less than the time for reverse rotation to reach or the step number for forward rotation to reach is less than the step number for reverse rotation to reach, the first coil generates frequency signals to control the minute hand to rotate forwards, and the second coil generates frequency signals to control the minute hand to rotate backwards. In the embodiment of the invention, the completion rate of the target steps of the human body can be obtained according to the size of the collected human body accumulated step counting data, and the target steps can be set by a mobile phone which is communicated with the hand-manipulating watch. The hour hand is controlled by the second machine core to indicate the completion rate of the target steps; the microprocessor analyzes the target step completion rate after receiving the accumulated step counting data collected by the 3D acceleration sensor, and simultaneously sends an instruction to a second microprocessor of a second movement, the second microprocessor controls a third coil to generate a frequency pulse signal corresponding to clockwise rotation or controls a fourth coil to generate a frequency pulse signal corresponding to counterclockwise rotation, finally, a second stepping motor controls an hour hand to rotate forwards or reversely according to the received frequency pulse signal and advances to the position of the real target step completion rate, similarly, the position of the scale indicating whether the hour hand reaches the target step completion rate in the clockwise rotation or the reverse rotation is determined by the time when the hour hand advances to the position of the real target step completion rate or the step required by the second stepping motor, namely, if the time of the clockwise rotation is less than the time of the reverse rotation arrival or the step of the forward rotation is less than the step of the reverse rotation arrival, the third coil generates frequency signals to control the hour hand to rotate forwards, and the fourth coil generates frequency signals to control the hour hand to rotate backwards.

In the embodiment of the invention, the hand-knitting watch also comprises a watch hand character surface 8, and in order to clearly and visually indicate the accumulated step counting data and the target step counting completion rate, the watch hand character surface 8 is provided with scales of the accumulated step counting data and the target step counting completion rate. Preferably, the scales of the accumulated step counting data are 0, 5000, 1 ten thousand, 2 ten thousand, 4 ten thousand and 6 ten thousand, and the scales of the target step completion rate are 0, 20%, 50%, 100%, 150%, 200% and 300%. Of course, the invention can have other scale modes as long as the accumulated step counting data and the target step number completion rate can be clearly indicated. The pointer character surface 8 is fixedly arranged above the first movement and the second movement 41, a rotating shaft of the first movement penetrates through the pointer character surface 8 and then is connected with the minute hand 31, and the minute hand 31 is controlled to rotate through the rotating shaft of the first movement; in the embodiment of the present invention, the rotating shaft of the first movement and the rotating shaft of the second movement 41 are not coaxial, the minute hand 31 and the hour hand 32 located above the watch dial face 8 are located on different planes or the same plane, if the minute hand 31 and the hour hand 32 are located on different planes, and even if the heights of the minute hand 32 and the minute hand 31 located on the watch dial face 8 are not consistent, the minute hand operating region and the hour hand operating region may have an intersection or may not have an intersection; if the minute hand 31 and the hour hand 32 are on the same plane, that is, the hour hand and the minute hand are at the same height on the face 8 of the watch hand, the operation area of the minute hand and the operation area of the hour hand do not intersect, and such design is to avoid the mutual interference between the minute hand and the hour hand in the operation process.

In the embodiment of the invention, the hand-manipulating watch further comprises an inner shadow 9, the inner shadow 9 is fixed on the watch bottom case 2 through limiting columns arranged at three corners of four corners inside the watch bottom case, the limiting columns at the three corners can be screws 91, and the inner shadow 9 is fixedly arranged on the watch bottom case 2 through the screws 91. The hand-manipulating watch further comprises an LED indicating lamp arranged on the lower side of the other corner of the inner shadow four corners, a functional module 11 and a functional key 22 arranged on the side edge of the watch bottom case 2, wherein the functional module 11 is connected with the functional key 22, and the functional module 11 and the LED indicating lamp are in communication connection with the microprocessor through a PCB mainboard 5. In order to make the hand-manipulating watch more beautiful, decorative screws with the same shape as screws on other three corners are arranged at the position of an inner shadow 9 on the LED indicating lamp, and the LED indicating lamp is used for indicating the working state of the hand-manipulating watch. In the embodiment of the present invention, the function key 22 is used to implement the opening and closing of the step counting acquisition of the hand-manipulating watch, or the switching of the hand-manipulating intelligent function, for example, the function key is pressed for more than 3 seconds to open or close the step counting data acquisition function; the mutual switching between the clock indication and the indication of the accumulated step counting data and the target step number completion rate is realized within 1 second by pressing the function key for a short time.

In the embodiment of the invention, the hand watch further comprises an NFC module 10 and a Bluetooth communication module 12, the NFC module 10 is bonded on the bottom surface of the inner shadow 9 in an adhesive mode, and the Bluetooth communication module 12 is connected with the microprocessor. The NFC module 10 or the bluetooth communication module 12 can implement data communication between the hand-knitting watch of the present invention and a smart phone or other smart devices, that is, the mobile phone is equipped with an APP application program control of the hand-knitting watch to implement data exchange and function control, such as time calibration, step-counting data information transmission and storage, and the like.

In the embodiment of the invention, the hand-manipulating watch further comprises a motor and a charging module which are fixedly arranged on the watch bottom shell, the motor and the charging module are electrically connected with the microprocessor through a PCB mainboard, the charging module is connected with the battery, one side of the charging module is provided with a magnet, the other side of the charging module is provided with the motor, and the peripheral charging device is attracted by the magnetic force of the motor and the magnet to carry out charging.

In conclusion, the hand-manipulating watch provided by the invention can obtain the step counting data of the movement and the target step number completion rate through the hand-manipulating indication, and does not need to display through a display screen, so that the appearance and effect of the traditional hand-manipulating watch are ensured, and the cost is also saved.

The above embodiments are preferred embodiments of the present invention, but the present invention is not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be construed as equivalents thereof, and all such changes, modifications, substitutions, combinations, and simplifications are intended to be included in the scope of the present invention.

Claims

1. A hand-manipulating watch with a step-counting indication function based on a double-coil movement technology comprises a minute hand and an hour hand which are used for a time indication function, and is characterized in that the minute hand is independently controlled by a first movement, the hour hand is independently controlled by a second movement, and the first movement and the second movement are both double-coil movements;

2. The hand-manipulating watch with the step-counting indication function based on the dual-coil movement technology as claimed in claim 1, wherein the hand-manipulating watch further comprises a hand-manipulating face, the hand-manipulating face is fixedly arranged above the first movement and the second movement, a rotating shaft of the first movement penetrates the hand-manipulating face and then is connected with the minute hand, and the minute hand is controlled to operate by the rotating shaft of the first movement; the rotating shaft of the second movement penetrates through the dial face of the watch and then is connected with the hour hand, the hour hand is controlled to rotate through the rotating shaft of the second movement, and the rotating shaft of the first movement and the rotating shaft of the second movement are not coaxial.

3. The hand-operating watch with step-counting indication function based on the dual-coil movement technology according to claim 2, wherein the minute hand and the hour hand above the face of the watch hand are on different planes or on the same plane.

4. The hand-operating watch with the step counting indication function based on the double-coil movement technology as claimed in claim 3, wherein the watch hand face is provided with two regions, namely a minute hand operation region and an hour hand operation region, the minute hand operation region and the hour hand operation region have an intersection or do not have an intersection, the minute hand operation region is provided with an accumulated step counting data scale, and the hour hand operation region is provided with a target step counting completion rate scale.

5. The hand-guided watch with a step counting indication function based on the dual-coil movement technology as claimed in claim 4, wherein the scales of the accumulated step counting data are 0, 5000, 1 ten thousand, 2 ten thousand, 4 ten thousand and 6 ten thousand, and the scales of the target step completion rate are 0, 20%, 50%, 100%, 150%, 200% and 300%.

6. The hand-manipulating watch with the step counting and indicating functions based on the dual-coil movement technology according to claim 5, further comprising an inner shadow, wherein the inner shadow is fixedly mounted on the watch case through screws arranged at three of four corners of the inner shadow.

7. The hand watch with the step counting and indicating functions based on the dual-coil movement technology as claimed in claim 6, further comprising an NFC module and a Bluetooth communication module, wherein the NFC module is bonded on the bottom surface of the inner shadow in an adhesive manner, and the Bluetooth communication module is connected with the microprocessor.

8. The hand-manipulating watch with the step counting and indicating functions based on the dual-coil movement technology as claimed in claim 7, further comprising an LED indicator lamp arranged on the lower side of one of the four corners of the inner shadow, a functional module and a functional key arranged on the side of the watch case, wherein the functional module is connected with the functional key, and the functional module and the LED indicator lamp are both in communication connection with the microprocessor through the PCB mainboard.

9. The hand watch with the step counting and indicating functions based on the dual-coil movement technology as claimed in claim 8, further comprising a motor and a charging module both fixedly arranged on the watch case, wherein the motor and the charging device are electrically connected with the microprocessor through the PCB motherboard, the charging module is connected with the battery, one side of the charging module is provided with a magnet, the other side of the charging module is provided with the motor, and the peripheral charging electromagnet is attracted by the magnetic force of the motor and the magnet to charge.