CN110967960A - Hand-operating watch capable of realizing step counting and indicating functions by second hand - Google Patents

Abstract

The invention relates to a hand-manipulating watch for realizing a step-counting indication function by a second hand, which comprises an hour hand, a minute hand, a second hand, a processor, a storage module and a clock module which are connected with the processor, a 3D acceleration sensor, a first movement for independently controlling the hour hand to walk, a second movement for independently controlling the minute hand to walk and a third movement for independently controlling the second hand to walk, wherein the processor is connected with the second hand; the hand-manipulating watch sends instructions to the first movement, the second movement and the third movement through the processor respectively so as to control an hour hand, a minute hand and a second hand respectively; after the 3D acceleration sensor carries out data analysis and processing on the collected human body step counting data through the processor, the processor sends step counting instruction information to the third machine core, and step counting data indication is achieved through the second hand. This hand wrist-watch can obtain human meter step data to need not just can directly indicate meter step data through the second hand through the display screen, guaranteed pleasing to the eye and the effect of traditional hand wrist-watch, also saved the cost.

Description

Hand-operating watch capable of realizing step counting and indicating functions by second hand

Technical Field

The invention relates to the field of intelligent watches, in particular to a hand-operating watch with a step counting and indicating function realized by a second hand.

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 watch for realizing a step-counting indication function by a second hand, the hand watch comprising an hour hand, a minute hand and a second hand, characterized in that the hand watch further comprises a processor, a memory module and a clock module connected to the processor, a 3D acceleration sensor, a first movement for independently controlling the travel of the hour hand, a second movement for independently controlling the travel of the minute hand and a third movement for independently controlling the travel of the second hand;

the hand-manipulating watch sends instructions to the first movement, the second movement and the third movement through the processor respectively so as to control an hour hand, a minute hand and a second hand respectively; after the 3D acceleration sensor carries out data analysis processing on the collected human body step counting data through the processor, the processor sends step counting instruction information to the third movement, and step counting data is indicated through the second hand.

According to one embodiment of the invention, the hand-manipulating watch further comprises a wireless communication module connected with the processor, wherein the wireless communication module comprises a Bluetooth wireless communication module, a WIFI wireless communication module and a 2G/3G/4G/5G wireless communication module.

According to one embodiment of the invention, the rotating shafts of the first movement, the second movement and the third movement are the same rotating shaft.

According to an embodiment of the invention, the third movement comprises a first stepping motor, a first microprocessor and a first coil, the first microprocessor, the first stepping motor and the second hand are sequentially connected, and after the first microprocessor sends an instruction to the first coil, the first coil outputs two pulse signals with different frequencies to the first stepping motor, so that the first stepping motor controls the second hand to rotate forwards or backwards, and the second hand accurately indicates the step counting data acquired by the 3D acceleration sensor.

According to an embodiment of the present invention, when the first coil outputs a 32 hz frequency pulse signal to the first stepping motor, the first stepping motor controls the second hand to rotate forward; when the first coil outputs a frequency pulse signal of 64 Hz to the first stepping motor, the first stepping motor controls the minute hand to reversely rotate.

According to one embodiment of the invention, the third movement comprises a second stepping motor, a second microprocessor, a third coil and a fourth coil, wherein 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 after 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 second hand to rotate forwards; and 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 second hand to reversely rotate.

According to one embodiment of the invention, the third movement is provided with a hand face, and a rotating shaft of the third movement penetrates through the center of the hand face and is connected with the second hand.

According to one embodiment of the invention, the table pointer is provided with target step completion rate scales, and the target step completion rate scales can be divided into 0-50%, 50-100%, 100-200% and 200-300%.

Compared with the prior art, the invention has the following beneficial effects: the hand-operating 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 second hand indication, and does not need to be displayed through a display screen, so that the appearance and the effect of the traditional hand-operating watch are ensured, and the cost is also saved.

Drawings

FIG. 1 is a schematic diagram of a hand-manipulating watch according to the present invention;

fig. 2 is a schematic structural diagram of a third movement according to the present invention;

fig. 3 is a schematic structural diagram of a third movement according to still another embodiment of 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 3, the present invention provides a hand watch with a step-counting indication function, which includes an hour hand, a minute hand and a second hand, and further includes a processor, a memory module and a clock module connected to the processor, a 3D acceleration sensor, a first movement for independently controlling the travel of the hour hand, a second movement for independently controlling the travel of the minute hand, and a third movement for independently controlling the travel of the second hand; the hand-manipulating watch sends instructions to the first movement, the second movement and the third movement through the processor respectively so as to control an hour hand, a minute hand and a second hand respectively; after the 3D acceleration sensor carries out data analysis and processing on the collected human body step counting data through the processor, the processor sends step counting instruction information to the third movement, and step counting data indication is achieved through the second hand.

In the embodiment of the invention, the hand-manipulating watch further comprises a wireless communication module connected with the processor, the wireless communication module comprises a Bluetooth wireless communication module, a WIFI wireless communication module and a 2G/3G/4G/5G wireless communication module, and data exchange between the hand-manipulating watch and external intelligent equipment is realized through the wireless communication module, for example, target step number of the hand-manipulating watch is modified through a mobile phone APP.

In the embodiment of the invention, the rotating shafts of the first movement, the second movement and the third movement are the same rotating shaft, but the first movement independently controls the hour hand, the second movement independently controls the minute hand and the third movement independently controls the second hand, wherein the first movement and the second movement are only used for controlling time indication and have no other functions. And the third movement can control and indicate the second, and can also control the second hand to indicate through the third movement according to the step counting data collected by the 3D acceleration sensor.

In order to realize that the second hand indicates the step data, in the embodiment of the invention, the third movement comprises a first stepping motor, a first microprocessor and a first coil, wherein the first microprocessor, the first coil, the first stepping motor and the second hand are sequentially connected, and after the first microprocessor sends an instruction to the first coil, the first coil outputs two pulse signals with different frequencies to the first stepping motor, so that the first stepping motor controls the second hand to realize forward rotation or reverse rotation, and accurate indication of the second to the step data acquired by the 3D acceleration sensor is realized. The processor receives the step counting data collected by the 3D acceleration sensor, analyzes and processes the data, and sends an instruction to a first microprocessor of a third movement, the first microprocessor controls the first coil to generate a corresponding frequency pulse signal, when the second hand needs to rotate forwards, a 32 Hz frequency signal is sent, when the second hand needs to rotate backwards, a 64 Hz frequency signal is sent, finally, the first stepping motor controls the second hand to move to the position of the step counting data according to the received frequency signal, as for whether the second hand rotates forwards or reversely to reach the position of the corresponding step counting data, the time of the second hand moving to the position of the corresponding data or the step number needed by the first stepping motor is the criterion, namely, if the time of the forward rotation reaches is less than the time of the reverse rotation reaching or the step number of the reverse rotation reaches is less than the step number of the reverse rotation reaching, the first coil generates the 32 Hz frequency signal to control the second hand to move forwards, on the contrary, the first coil generates a 64 Hz frequency pulse signal to control the second inversion.

In the embodiment of the present invention, the third movement may be another one, and the third movement includes a second stepping motor, a second microprocessor, a third coil and a fourth coil, an output end of the second microprocessor is respectively connected to the third coil and the fourth coil, output ends of the third coil and the fourth coil are both connected to 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 second hand to rotate forward; 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 second hand to rotate reversely. The microprocessor receives the step counting data collected by the 3D acceleration sensor, analyzes and processes the data, and sends an instruction to a second microprocessor of a third movement, the second microprocessor controls a third coil to generate a frequency pulse signal corresponding to the forward rotation of a second hand or controls a fourth coil to generate a frequency pulse signal corresponding to the reverse rotation of the second hand, finally, a second stepping motor controls a second hand to perform forward rotation or reverse rotation according to the received frequency pulse signal and to advance to the position of corresponding step counting data, as for the position of the second hand reaching the corresponding step counting data in the forward rotation or reverse rotation, the time of the second hand reaching the position of the corresponding step counting data or the step number required by the second stepping motor are taken as the criterion, namely, if the time of the forward rotation is less than the time of the reverse rotation or the step number of the forward rotation is less than the step number of the reverse rotation, the third coil generates frequency signals to control the second hand to rotate forwards, and the fourth coil generates frequency signals to control the second hand to rotate backwards.

In the embodiment of the invention, a watch hand character surface is arranged on the third movement, and a rotating shaft of the third movement penetrates through the center of the watch hand character surface and is connected with the second hand. The pointer is provided with target step completion rate scales which can be divided into 0-50%, 50-100%, 100-200% and 200-300%.

In conclusion, the hand-manipulating watch of the invention can obtain the step counting data and the target step number completion rate of the human body movement, can directly indicate the step counting data through the second hand without being displayed through the display screen, is used for scalar quantity of the human body movement, and ensures the beauty and the effect of the traditional hand-manipulating watch.

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 (8)

1. The hand-manipulating watch capable of realizing the step-counting indication function by the second hand comprises an hour hand, a minute hand and a second hand and is characterized by further comprising a processor, a storage module and a clock module which are connected with the processor, a 3D acceleration sensor, a first movement for independently controlling the hour hand to walk, a second movement for independently controlling the minute hand to walk and a third movement for independently controlling the second hand to walk;

the hand-manipulating watch sends instructions to the first movement, the second movement and the third movement through the processor respectively so as to control an hour hand, a minute hand and a second hand respectively; after the 3D acceleration sensor carries out data analysis processing on the collected human body step counting data through the processor, the processor sends step counting instruction information to the third movement, and step counting data is indicated through the second hand.

2. The hand watch according to claim 1, further comprising a wireless communication module connected to the processor, wherein the wireless communication module comprises a bluetooth wireless communication module, a WIFI wireless communication module, or a 2G/3G/4G/5G wireless communication module.

3. The hand watch according to claim 2, wherein the first movement, the second movement, and the third movement have the same rotation axis.

4. The hand-in-hand watch capable of realizing a step counting and indicating function by a second hand according to claim 3, wherein the third movement comprises a first stepping motor, a first microprocessor and a first coil, the first microprocessor, the first stepping motor and the second hand are sequentially connected, and after the first microprocessor sends an instruction to the first coil, the first coil outputs two pulse signals with different frequencies to the first stepping motor, so that the first stepping motor controls the second hand to realize forward rotation or reverse rotation, thereby realizing accurate indication of the second hand on the step counting data acquired by the 3D acceleration sensor.

5. The hand watch according to claim 4, wherein the first stepping motor controls the second hand to rotate forward when the first coil outputs a pulse signal of a frequency of 32 hz to the first stepping motor; when the first coil outputs a frequency pulse signal of 64 Hz to the first stepping motor, the first stepping motor controls the minute hand to reversely rotate.

6. The hand watch according to claim 3, wherein the third movement includes a second stepping motor, a second microprocessor, a third coil, and a fourth coil, wherein an output terminal of the second microprocessor is connected to the third coil and the fourth coil, respectively, and output terminals of the third coil and the fourth coil are connected to the second stepping motor, and when the second microprocessor sends a command 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 second hand to rotate forward; and 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 second hand to reversely rotate.

7. The hand watch according to claim 5 or 6, wherein the third movement is provided with a hand face, and a rotation shaft of the third movement passes through a center of the hand face and is connected to the second hand.

8. The hand watch according to claim 7, wherein the hand dial is provided with a target step completion rate scale which is divisible into 0-50%, 50-100%, 100-200%, and 200-300%.

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