CN109451005B

CN109451005B - Sports bracelet data acquisition method

Info

Publication number: CN109451005B
Application number: CN201811279556.3A
Authority: CN
Inventors: 方明治; 黄建平; 曾伟鹏; 詹贵彬
Original assignee: Guangdong Yuandongli Information Technology Co ltd
Current assignee: Guangdong Yuandongli Information Technology Co ltd
Priority date: 2018-10-30
Filing date: 2018-10-30
Publication date: 2021-03-30
Anticipated expiration: 2038-10-30
Also published as: CN109451005A

Abstract

The invention relates to the technical field of sports bracelets, and provides a sports bracelet data acquisition method for solving the problem that the accuracy of acquired data is low due to the fact that a bracelet can jump in the process of sports when the existing sports bracelets acquire data, wherein the method comprises the following steps of: the button holes are selected for wearing, so that the length of the watchband is matched with the wrist; a data acquisition step: collecting motion data of a user; wherein: the wearing step further includes: sliding the bracelet upwards along the arm, stopping sliding the bracelet after the folding part of the watchband is completely unfolded, and massaging the arm by the folding part at the moment; timing: the collected movement data are identified, timing is started when the user is identified to carry out rope skipping movement, when the bracelet slides to the lowest position, the folding part is folded, the massage is stopped, timing is stopped by triggering, whether recorded time information exceeds a time threshold value or not is judged, and when the time information exceeds the time threshold value or is smaller than the time threshold value, an alarm signal is sent.

Description

Sports bracelet data acquisition method

Technical Field

The invention relates to the technical field of sports bracelets, in particular to a sports bracelet data acquisition method.

Background

Sports bracelet is a wearing formula smart machine. The user can use the device to record real-time data such as exercise, sleep, partial diet and the like in daily life, and synchronize the data with a mobile phone, a tablet and an ipod touch, so that the device plays a role of guiding healthy life through the data.

The conventional sports bracelet generally comprises a watch body and a watchband, wherein an inductor is arranged in the watch body, and real-time data such as exercise, sleep and diet in daily life can be measured according to the amplitude and frequency of wrist actions. A plurality of button holes are usually arranged on the watchband, and a user can select a proper button hole to wear according to the wrist of the user. However, in order to guarantee the comfort level of wearing, the user usually selects the button hole that is a little bigger than normal size, so, when the user is in the motion, the bracelet will be jumped from top to bottom on the arm, at the in-process of beating, the table body no longer pastes with user's skin mutually to cause the influence to the collection of data, reduced the accuracy of data.

Disclosure of Invention

The invention aims to provide a data acquisition method for a sports bracelet, and aims to solve the problem that the accuracy of acquired data is reduced due to the fact that the bracelet is not attached to the skin any more in the process of movement when the existing sports bracelet acquires data.

The basic scheme provided by the invention is as follows: a data acquisition method of a sports bracelet comprises the following steps,

a wearing step: the button holes are selected for wearing, so that the length of the watchband is matched with the wrist;

a data acquisition step: collecting motion data of a user;

wherein: the wearing step further includes: sliding the bracelet upwards along the arm, and stopping sliding the bracelet when the telescopic folding part on the watchband is completely unfolded;

timing: the collected movement data are identified, timing is started when the rope skipping movement of the user is identified, the folding part is folded when the bracelet slides to the lowest position, timing is triggered to stop, and time information is recorded;

a judging step: and judging whether the time information exceeds a time threshold value or not, and sending an alarm signal when the time information exceeds the time threshold value or is smaller than the time threshold value.

The basic scheme has the working principle and the beneficial effects that: compared with the existing data acquisition scheme, the data acquisition method and the data acquisition device have the advantages that 1. in the scheme, after the folding part is folded, the length of the watchband is shortened, and the folding part is utilized to realize the extension and retraction of the watchband, so that the bracelet can be attached to the skin all the time, and the accuracy of the acquired data is ensured;

2. considering that the bracelet can slide in the process of rope skipping movement, in the scheme, the time from the unfolded state to the folded state, namely the time from the highest position to the lowest position of the bracelet on the arm, is recorded, if the rope skipping speed of a user is too slow, namely the time of the whole sliding process of the bracelet is too long, or the rope skipping speed of the user is too fast, namely the time of the whole sliding process of the bracelet is too short, the rope skipping movement of the user is not standard, the bracelet needs to be corrected in time to achieve the purpose of exercise, namely an alarm is sent at the moment, and the user is prompted to correct the movement;

3. at the gliding in-process of bracelet, utilize the folding portion of folding to fold when the bracelet slides to the minimum and trigger the timing and stop to need not set up extra trigger mechanism.

The first preferred scheme is as follows: preferably, in the timing step, when the time information exceeds a time threshold, a first alarm signal is issued, and when the time information is less than the time threshold, a second alarm signal is issued. Has the advantages that: because the time information is too long or too short, the rope skipping rope is different in irregular rope skipping behaviors, the different behaviors are prompted through the arrangement of the first alarm signal and the second alarm signal, and therefore a user can correct the behaviors.

The preferred scheme II is as follows: preferably, in the timing step, when the time information exceeds the maximum time value, a first alarm signal is issued, and when the time information is less than the minimum time value, a second alarm signal is issued. Has the advantages that: when time information surpassed maximum time value, bracelet gliding speed was too slow promptly, just also represented user's rope skipping speed slowly, and when time information surpassed minimum time value, bracelet gliding speed was too fast promptly, represented user's rope skipping speed was too fast, warns respectively foretell two kinds of wrong actions through sending different alarm signal, and the user of being convenient for distinguishes.

The preferable scheme is three: preferably, the first alarm signal is a sound signal, and the second alarm signal is a vibration signal. Has the advantages that: considering that when the rope skipping speed of the user is too high, the user can feel the violent movement and cannot hear surrounding sounds, the second alarm signal is set as a vibration signal to ensure that the user can receive the second alarm signal, and when the rope skipping speed of the user is too low, the user can receive surrounding sound signals without the violent movement, so that the sound signal is selected as the first alarm signal to distinguish the first alarm signal from the second alarm signal, and the user can distinguish two wrong movement behaviors.

The preferable scheme is four: preferably, when the folding part is folded, the massage head on the folding part presses the switch module which controls the opening and closing of the massage head, the switch module controls the closing of the massage head, when the folding part is unfolded, the massage head is separated from the switch module, and the switch module controls the starting of the massage head. Has the advantages that: set up massage head and switch module, utilize the folding or the expansion of folding portion to realize the automatic control of massage head, the first start-up of massage can massage the muscle of arm, lets the muscle of arm be in good state, is favorable to better motion, need not manual operation, convenient operation.

The preferable scheme is five: preferably, in the fourth preferred embodiment, the switch module is a normally closed switch. Has the advantages that: the normally closed switch is selected to be used as the switch module, when the massage head is separated from the normally closed switch, the normally closed switch is in a closed state because the normally closed switch is not pressed by the massage head, the massage head is started, when the massage head presses the normally closed switch, the normally closed switch is changed into an open state, and the massage head is closed at the moment, so that the operation is simple.

Drawings

Fig. 1 is a schematic structural diagram of a sports bracelet adopted in an embodiment of a sports bracelet data acquisition method of the invention;

FIG. 2 is a schematic view of a portion of the folded portion of FIG. 1;

fig. 3 is a flowchart of an embodiment of a data collection method for a sports bracelet according to the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: watch body 1, grommet 11, band 2, clasp 21, folder 23, folding surface 231, massage head 233, and switch module 235.

The sports bracelet used in the embodiment is substantially as shown in the attached figure 1: comprises a watch body 1 and a watch band 2, a mounting hole for mounting the watch body 1 is arranged at the center of the watch band 2, a plurality of buttonholes 11 are uniformly arranged at intervals at one end of the watch band 2, preferably 10 buttonholes 11 in the embodiment, a buckle 21 matched with the buttonholes 11 is arranged at the other end of the watch band 2, a folding part 23 is also arranged on the watch band 2, the folding part 23 is arranged at the left end of the watch band 2, as shown in fig. 2, the folding part 23 comprises a plurality of folding sections, each folding section comprises two opposite folding surfaces 231, each folding surface 231 is connected through a torsion spring, a massage mechanism is arranged on the inner surface of the folding surface 231, the massage mechanism comprises a massage head 233 and a switch module 235 for controlling the opening and closing of the massage head 233, wherein the massage head 233 is arranged on the inner surface of one folding surface 231, the switch module 235 is arranged at the position opposite to the massage head 233 on the inner surface of the other folding surface, the switch module 235 in this embodiment is a normally closed switch, when the switch module 235 is closed, the massage head 233 is closed, and when the switch module 235 is open, the massage head 233 is started; the massage head 233 in this embodiment is a LX0820 flat motor, the circuit of which is arranged on the watchband 2, and in order to isolate the circuit of the massage head 233 from the outside, the watchband 2 is provided with a channel for the circuit to pass through, and the circuit is connected with the watch body 1 after passing through the channel;

the watch body 1 is provided with a data acquisition module for acquiring user motion data, and the acquired motion data comprises motion steps, heartbeat frequency and the like; the massage head is also provided with a storage module, an identification module, a timing module, a judgment module, a control module, an alarm module and a power supply module, wherein the power supply module supplies power to the functional module and the massage head 233;

the alarm module comprises a buzzer and a miniature vibration motor, the storage module stores a minimum time value, a maximum time value and a motion model, the motion model comprises a rope skipping motion model, a running motion model and the like, when the recognition module recognizes that a user performs rope skipping motion, the control module controls the timing module to start, and the timing module starts timing;

the data acquisition module can comprise a three-axis acceleration sensor; because the rope skipping movement of the human body mainly comprises three components, namely a forward direction, a vertical direction and a lateral direction, and the three-axis acceleration sensor can measure the acceleration of an X axis, a Y axis and a Z axis in space, the rope skipping can sense the vibration of the human body in each direction, the arms of the human body need to continuously swing the rope during rope skipping, the swinging of the arms can be approximately regarded as circular movement, and the human body continuously jumps up and down in situ during the rope skipping process, so the movement track of the arms is also approximately in a long circle shape, and the motion processes of pedaling, lifting off the ground and touching the ground can occur on the legs of the human body once jumping, and in the change process, the motion data of the speed, the acceleration and the like of the human body can change along with time, so after the rope skipping motion model is constructed by utilizing the motion variables, when the motion data identified by the identification module is matched with the motion model of the rope skipping movement of the rope motion prestored in the storage module, namely, the user performs rope skipping at the moment;

data acquisition module can also detect user's health data, including the rhythm of the heart, sleep etc, data acquisition module adopts reflection type photoelectric method to detect the rhythm of the heart usually, thereby the rhythm of the heart is measured to the change of blood vessel volume when responding to blood through light reflection promptly, consequently data acquisition module includes light emission end and receiving terminal again, the emission end sends the green glow, the receiving terminal accepts the light of body tissue reflection, because intelligent motion bracelet has belonged to more ripe product, its motion detection, health data detection technique belongs to prior art, so no longer detail in this embodiment.

As shown in fig. 3, a data collecting method for a sports bracelet includes the following steps,

a wearing step: the button hole 11 is selected to be worn, so that the watchband 2 is matched with the wrist;

a data acquisition step: the data acquisition module acquires motion data of a user;

wherein: the wearing step further includes: the bracelet is slid upwards along the arm, the bracelet is stopped to slide after the folding part 23 of the watchband 2 is completely unfolded, the folding surface 231 is unfolded at the moment, the massage head 233 is attached to the skin, the massage head 233 on the folding surface 231 is separated from the switch module 235, and the switch module 235 controls the massage head 233 to be started to massage the arm;

timing: when a user moves, the recognition module recognizes the motion data, when the motion data recognized by the recognition module is matched with a motion mode of rope skipping motion prestored in the storage module, the counting module starts to time, and when the user moves in the rope skipping process, the arm can continuously swing from top to bottom and then swing from bottom to top, the motion track of the user is similar to an ellipse, in the process, the hand ring can gradually slide towards the wrist along the arm, finally the hand ring can slide to the wrist, namely the lowest position of the arm, when the hand ring slides to the lowest position, because the circumference of the wrist is the shortest part on the arm, the folding part 23 is folded, meanwhile, the massage head 233 on the folding part 23 presses the switch module 235 which controls the opening and closing of the massage head 233, the switch module 235 controls the closing of the massage head 233, and simultaneously triggers the timing stop, and the storage module stores the time information at the moment;

a judging step: the judging module judges whether the time information exceeds a time threshold, and in this embodiment, the timing module can be controlled to stop timing after the switch module 235 is closed; when the time information exceeds the time threshold or is smaller than the time threshold, an alarm signal is sent out, specifically, when the time information exceeds the maximum time value, the controller controls the buzzer to send out a first alarm signal, and when the time information is smaller than the minimum time value, the controller controls the micro vibration motor to send out a second alarm signal, so that the first alarm signal is a sound signal, and the second alarm signal is a vibration signal.

The time threshold in the above process is a time value of the bracelet sliding from the highest position to the lowest position of the arm when the speed of the user is normal speed and the movement is standard movement in the rope skipping movement, considering that the thicknesses of the arms of different users are different, therefore, for the watchband 2 with the same length, after different users wear the bracelet, the distance from the highest position to the lowest position of the arm is different, for example, it is assumed that the circumferences of the wrists of the users a and B are the same, but because the arm of the user a is thicker than the arm of the user B, the user a and the user B push the bracelet upwards along the arm after wearing the bracelet until the folding part 23 of the bracelet is completely unfolded, at this time, the distance from the bracelet on the arm of the user a to the wrist is smaller than the distance from the bracelet on the arm of the user B to the wrist, so that a plurality of sets of time thresholds are pre-stored in the storage module, the user can select a corresponding time threshold value for judgment according to the actual condition of the user, and when the time threshold value is selected, the user can select the time threshold value according to the highest position of the hand ring on the arm and the distance between the hand ring and the wrist; in addition, since the number of skipping ropes within one second is an interval value, that is, the skipping speed of normal skipping rope movement is also an interval value, so that the sliding speed of the bracelet on the arm is also an interval value, when the skipping speed is fast, the sliding speed of the bracelet on the arm is also fast, and when the skipping speed is slow, the sliding speed of the bracelet on the arm is also slow, therefore, when the sliding distance of the bracelet is fixed, the corresponding time threshold value is also an interval value, that is, the time threshold value includes the maximum time value and the minimum time value, for convenience of description of the embodiment, the sliding distance of the bracelet is set to Xcm in the embodiment, in the time threshold value, the maximum time value is Y1s, and the minimum time value is Y2 s.

The specific implementation process is as follows:

when the watchband 2 is worn, a user selects a proper button hole 11 on the watchband 2 according to the wrist of the user to wear, so that the circumference of the bracelet is adapted to the wrist after the button hole 11 is buckled with the buckle ring 21; after the wrist watch is worn, the folding part 23 is telescopic, so that when a user does exercise and the bracelet jumps on an arm, the folding part 23 can stretch or fold, so that the bracelet is always attached to the skin, and the watch body 1 is always attached to the skin, so that the accuracy of collected data, such as heart rate and exercise data, is ensured;

in the motion process of a user, a data acquisition module acquires motion data such as speed and acceleration of a human body and forms a motion model according to motion variables of the acquired motion data, an identification module identifies the motion model, when the identified motion model is matched with a motion model of rope skipping motion prestored in a storage module, the rope skipping motion of the user is indicated, and a control module controls a timing module to start;

because the arm is swinging during the rope skipping movement of the user, the bracelet on the arm will gradually slide from the high position of the arm to the low position of the arm, namely the wrist position, during the swinging movement, because the size of the high position of the arm is larger than that of the low position of the arm, the watchband 2 will gradually shorten under the folding action of the folding part 23, the two adjacent folding surfaces 231 will also start to fold, and when the bracelet slides to the wrist, because the size of the palm is larger than that of the wrist, the bracelet will not slide at this time, the folding part 23 is also in the fully folded state at this time, the massage head 233 presses the switch module 235 at this time, the switch module 235 controls the massage head 233 to stop timing, and the control module controls the timing module to stop timing, the storage module stores the time information recorded by the timing module at this time, for example, during the rope skipping movement, the time for the bracelet to slide from the high arm position to the low arm position is Ys, and the time information at the moment is Ys;

the judgment module judges the recorded time information, when the time information exceeds a maximum time value, namely Ys is greater than Y1s, namely in the process of rope skipping of a user, the user is slow in arm swinging speed, so that the sliding speed of the bracelet on the arm at the moment is slow, the time information exceeds the maximum time value due to overlong time for the bracelet to slide to the lower part of the arm, namely the rope skipping speed of the user is slow at the moment, and the controller controls the buzzer to send out a first alarm signal to remind the user of improving the rope skipping speed;

on the contrary, when the time information is smaller than the maximum time value, that is Ys is smaller than Y1s, that is, the user has a short time for sliding the bracelet onto the arm due to too fast swinging speed of the arm during rope skipping, and the time information is smaller than the minimum time value, that is, when the time information is smaller than the minimum time value, it indicates that the rope skipping speed of the user is too fast, the controller controls the micro vibration motor to send out a second alarm signal to remind the user to reduce the rope skipping movement, and meanwhile, considering that the user has too fast rope skipping speed, the heart rate may be too fast to cause discomfort symptoms, such as dizziness symptoms, so the memory module in this embodiment also has a heart rate threshold value, during the movement, the data acquisition module acquires the heart rate of the user, and when the controller controls the micro vibration motor to send out the second alarm signal, the controller also controls the judging module to compare the acquired heart rate value with a pre-stored heart rate threshold value, and when the comparison result is that the heart rate value is greater than the heart rate threshold value, the control module controls the micro vibration motor to send out a second alarm signal and simultaneously controls the buzzer to send out a first alarm signal, and the two alarm signals prompt a user to need to do the best, so that the user is not suitable for moving too fast, and the body is prevented from having uncomfortable symptoms;

meanwhile, considering that the rope skipping speed of the user is low or is possibly a beginner and is not skilled in rope skipping, and the rope skipping speed of the user is high or is possibly nonstandard in user action, a standard rope skipping motion video can be pushed to the user for the user to learn at this time, therefore, the watch body 1 in the embodiment is further provided with a display screen and a pushing module capable of obtaining the standard rope skipping motion video from a third party, and under the condition that the judging module judges that the time information exceeds the time threshold, the controller further controls the pushing module to obtain the rope skipping motion video from the third party (such as an internet platform), and the display screen displays the rope skipping motion video obtained by the pushing module.

In the above-mentioned process, in order to realize the folding of watchband 2, the folding part 23 that adopts in this embodiment compares with the rubber band commonly used, the setting of folding part 23 has not only realized the scalable of watchband 1 length, and simultaneously, massage head 233 that sets up on folding part 23 massages the arm when folded surface 231 expandes, relax arm muscle, can effectively prevent the cramp phenomenon that the arm probably appears in the motion process, and again, because the rubber band commonly used can lose elasticity after tensile a certain number of times, and the folding part 23 that adopts in this implementation is owing to adopted a plurality of folded surfaces 231 to constitute, compared, the scalability of folding part 23 keeps more lasting.

The foregoing is merely an example of the present invention, and common general knowledge in the field of known specific structures and characteristics is not described herein in any greater extent than that known in the art at the filing date or prior to the priority date of the application, so that those skilled in the art can now appreciate that all of the above-described techniques in this field and have the ability to apply routine experimentation before this date can be combined with one or more of the present teachings to complete and implement the present invention, and that certain typical known structures or known methods do not pose any impediments to the implementation of the present invention by those skilled in the art. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims

1. A data acquisition method of a sports bracelet comprises the following steps,

a data acquisition step: collecting motion data of a user;

the method is characterized in that:

the wearing step further includes: sliding the bracelet upwards along the arm, and stopping sliding the bracelet when the telescopic folding part on the watchband is completely unfolded;

timing: constructing and storing a skipping rope motion model according to the collected motion data, identifying the collected motion data, starting timing when the motion data is identified to be matched with the skipping rope motion model stored in the storage module, folding the folding part when the bracelet slides to the lowest position along the arm, triggering timing to stop and recording time information;

2. The data collection method for sports bracelets according to claim 1, characterized in that: in the timing step, when the time information exceeds a time threshold value, a first alarm signal is sent out, and when the time information is smaller than the time threshold value, a second alarm signal is sent out.

3. The data collection method for sports bracelets according to claim 2, characterized in that: in the timing step, when the time information exceeds the maximum time value, a first alarm signal is sent out, and when the time information is smaller than the minimum time value, a second alarm signal is sent out.

4. The data collection method for sports bracelets according to claim 3, characterized in that: the first alarm signal is a sound signal and the second alarm signal is a vibration signal.

5. The data collection method for sports bracelets according to claim 1, characterized in that: when the folding part is folded, the massage head on the folding part presses the switch module which controls the opening and closing of the massage head, the switch module controls the closing of the massage head, when the folding part is unfolded, the massage head is separated from the switch module, and the switch module controls the starting of the massage head.

6. The data collection method for sports bracelets according to claim 5, characterized in that: the switch module is a normally closed switch.