CN203520053U - Watch with exercise segmentation and check-in functions by utilization of knocking or touching watch glass - Google Patents

Abstract

The utility model discloses a watch with exercise segmentation and check-in functions by utilization of knocking or touching a watch glass. The watch comprises the watch glass, a button, a display screen, a PCB, a battery, a watch case, a bottom cap, an air pressure sensor, a GPS antenna, a GPS module, a gravitational acceleration sensor and a heart rate detection module, wherein the watch case and the bottom cap are buckled to form a cavity, and the PCB is disposed in the cavity; the watch glass is disposed on the watch case, the button is connected to the watch case, and the display screen is disposed on the watch case; the battery is disposed under the PCB, the air pressure sensor is disposed on the PCB, and the GPS antenna is disposed at an inner wall of the watch case; and the GPS module is disposed on the PCB, the gravitational acceleration sensor is disposed on the bottom cap, and the heart rate detection module is disposed on the bottom cap. The exercise segmentation and exercise check-in functions are fulfilled by a user knocking or touching the watch during an exercise process, the problem of difficult interaction for users is solved, and experience feelings of the users are largely increased.

Description

The wrist-watch that a kind of utilization is knocked or touch table mirror carries out motion segmentation and registers

Technical field

The utility model relates to sports watch field, refers more particularly to the wrist-watch that a kind of utilization is knocked or touch table mirror carries out motion segmentation and registers.

Background technology

Sports watch refers to and integrates various motion sensors, in real time the various data in monitoring moving process.As the exercise datas such as sea level elevation, step number, speed, heart rate are measured the multifunctional movement wrist-watch in one.Its principle is: the built-in baroceptor of wrist-watch, Gravity accelerometer, gps receiver, heart rate detection module.The atmospheric gas pressure of baroceptor testing environment, then according to International Civil Aviation Organization (ICAO) relation about air pressure and altitude, calculate sea level elevation; Gravity accelerometer can calculate the step number of walking according to change in gravitational acceleration trend in human locomotion process; Gps receiver receives a day aerial GPS longitude and latitude signal, and in motion process, longitude and latitude constantly changes, and is calculated the speed of motion by the variable quantity of longitude and latitude; The heart rate when frequency that heart rate detection module is crossed the reflected signal of wrist according to blood flow is measured human motion.There is above-mentioned functions, can move out of doors basic guidance is provided user.

User moves out of doors in order to improve sports achievement, often can use motion segmentation, according to the achievement of segmentation improve movement technique.Simultaneously in motion process, can have the place of Special Significance through some, user wants to remember these points, the motion of Here it is the sports watch the inside function of registering.There are on the market at present various sports watches, when take exercises segmentation and motion are registered, are switched to different operator schemes by button, can know, user, in motion process, also will operate wrist-watch button while move, and what can show is very difficult; Use very inconveniently, from the angle of interactive experience, user's experience sense is not strong.

Utility model content

The purpose of this utility model is to overcome above-mentioned weak point of the prior art and a kind of simple in structure, easy to operate, utilization is knocked or touch table mirror carries out motion segmentation and registers wrist-watch is provided.

The utility model is realized in the following way:

The wrist-watch that a kind of utilization is knocked or touch table mirror carries out motion segmentation and registers, comprise table mirror 1, button 2, display screen 3, PCB circuit board 4, battery 10, watchcase 12, bottom 13, described watchcase 12 is interlockingly connected and forms a cavity with bottom 13, and PCB circuit board 4 is arranged in cavity; Table mirror 1 is located on watchcase 12; Described button 2 is connected on watchcase 12, and is connected with PCB circuit board 4; Described display screen 3 is located on watchcase 12, and is connected with PCB circuit board 4; Described battery 10 is located at the below of PCB circuit board 4, and is connected with PCB circuit board 4; It is characterized in that: also comprise baroceptor 5, gps antenna 6, GPS module 7, Gravity accelerometer 8, heart rate detection module 9, described baroceptor 5 is located on PCB circuit board 4, and is connected with PCB circuit board 4; Described gps antenna 6 is located on the inwall of watchcase 12, and is connected with PCB circuit board 4; Described GPS module 7 is located on PCB circuit board 4, and is connected with PCB circuit board 4; Described Gravity accelerometer 8 is located on bottom 13, and is connected with PCB circuit board 4; Described heart rate detection module 9 is located on bottom 13, and is connected with PCB circuit board 4.

Described watchcase 12 is provided with water proof ring 11 with the junction of bottom 13.

Described PCB circuit board 4 comprises GPS receiving circuit A, air pressure testing circuit B, meter step testing circuit C, heart rate detection circuit D, knock or touch detection circuit E, MCU circuit F, key circuit G, clock circuit H, reset circuit I, display circuit J, sound circuit K, backlight circuit L, Bluetooth transmission circuit M, and described GPS receiving circuit A changes into digital signal level by aerial GPS electromagnetic wave signal and sends MCU circuit F to and process; Air pressure testing circuit B changes into digital signal level by atmospheric gas pressure signal and sends MCU circuit F to and process; Meter step testing circuit C is converted into digital signal level by the acceleration of gravity signal in motion walking and sends MCU circuit F to and process; Heart rate detection circuit D is converted into digital signal level by the mobile periodic signal of wrist blood and sends MCU circuit F to and process; Knock or touch detection circuit E is converted into level signal by vibration signal and sends MCU circuit F to and process; Key circuit G sends key commands information to MCU circuit F; Reset circuit I transmits reset signal to MCU circuit F; Clock circuit H transmission clock signal is to MCU circuit F; MCU circuit F shows output information after information processing to display circuit J; MCU circuit F output sound information is to sound circuit K; Described MCU circuit F exports information backlight to backlight circuit L; MCU circuit F output data information is to Bluetooth transmission circuit M.

The utility model has the advantage of: simple in structure, easy and simple to handle, motion segmentation and the motion table mirror that function knocked or touched wrist-watch by user in motion process of registering is realized, the problem that has well solved the mutual difficulty of user, has increased user's experience sense greatly.

Accompanying drawing explanation

Fig. 1 the utility model structural front view;

Fig. 2 the utility model structure cut-open view;

Fig. 3 circuit block diagram of the present utility model;

Fig. 4 circuit theory diagrams of the present utility model.

Embodiment

Now by reference to the accompanying drawings, the utility model embodiment is described in detail in detail:

As shown in Figure 1 and Figure 2, the wrist-watch that a kind of utilization is knocked or touch table mirror carries out motion segmentation and registers, comprise table mirror 1, button 2, display screen 3, PCB circuit board 4, baroceptor 5, gps antenna 6, GPS module 7, Gravity accelerometer 8, heart rate detection module 9, battery 10, watchcase 12, bottom 13, watchcase 12 is interlockingly connected and forms a cavity with bottom 13, and PCB circuit board 4 is arranged in cavity; Table mirror 1 is located on watchcase 12; Button 2 is connected on watchcase 12, and is connected with PCB circuit board 4; Display screen 3 is located on watchcase 12, and is connected with PCB circuit board 4; Battery 10 is located at the below of PCB circuit board 4, and is connected with PCB circuit board 4; Baroceptor 5 is located on PCB circuit board 4, and is connected with PCB circuit board 4; Gps antenna 6 is located on the inwall of watchcase 12, and is connected with PCB circuit board 4; GPS module 7 is located on PCB circuit board 4, and is connected with PCB circuit board 4; Gravity accelerometer 8 is located on bottom 13, and is connected with PCB circuit board 4; Heart rate detection module 9 is located on bottom 13, and is connected with PCB circuit board 4; Watchcase 12 is provided with water proof ring 11 with the junction of bottom 13.

As shown in Figure 3, Figure 4, PCB circuit board 4 of the present utility model comprises GPS receiving circuit A, air pressure testing circuit B, meter step testing circuit C, heart rate detection circuit D, knock or touch detection circuit E, MCU circuit F, key circuit G, clock circuit H, reset circuit I, display circuit J, sound circuit K, backlight circuit L, Bluetooth transmission circuit M, and described GPS receiving circuit A changes into digital signal level by aerial GPS electromagnetic wave signal and sends MCU circuit F to and process; Air pressure testing circuit B changes into digital signal level by atmospheric gas pressure signal and sends MCU circuit F to and process; Meter step testing circuit C is converted into digital signal level by the acceleration of gravity signal in motion walking and sends MCU circuit F to and process; Heart rate detection circuit D is converted into digital signal level by the mobile periodic signal of wrist blood and sends MCU circuit F to and process; Knock or touch detection circuit E is converted into level signal by vibration signal and sends MCU circuit F to and process; Key circuit G sends key commands information to MCU circuit F; Reset circuit I transmits reset signal to MCU circuit F; Clock circuit H transmission clock signal is to MCU circuit F; MCU circuit F shows output information after information processing to display circuit J; MCU circuit F output sound information is to sound circuit K; Described MCU circuit F exports information backlight to backlight circuit L; MCU circuit F output data information is to Bluetooth transmission circuit M.

GPS receiving circuit A: aerial GPS electromagnetic wave signal is changed into longitude and latitude digital signal level.

Air pressure testing circuit B: atmospheric gas pressure signal is changed into digital signal level.

Meter step testing circuit C: the acceleration of gravity signal in motion walking is converted into digital signal level.

Heart rate detection circuit D: the mobile periodic signal of wrist blood is converted into digital signal level.

Knock or touch detection circuit E: vibration signal is converted into level signal.

MCU circuit F: according to various input signals, carry out arithmetic, logical operation, Machining Analysis, outputs signal to display circuit J, sound circuit K, backlight circuit L.

Key circuit G: input various user instructions to MCU circuit F.

Clock circuit H: for whole system provides reliable clock source.

Reset circuit I: for whole system provides reliable reset signal.

Display circuit J: output display information.

Sound circuit K: output sound information.

Backlight circuit L: export information backlight.

Bluetooth transmission circuit M: accept MCU circuit F and control, transmitting moving data are to mobile phone, PAD computer etc.

At usual state, each element circuit, in sleep state, reaches energy-conservation object.F retention time function of MCU circuit, sends temporal information to display circuit J displaying time information.When MCU circuit F receives the instruction of key circuit G ejecting motion, MCU circuit F starts immediately with GPS receiving circuit A, air pressure testing circuit B, counts communicating by letter between step testing circuit C, heart rate detection circuit D, and sending respectively command signal to GPS receiving circuit A, air pressure testing circuit B, meter step testing circuit C, heart rate detection circuit D, GPS receiving circuit A, air pressure testing circuit B, meter step testing circuit C, heart rate detection circuit D are activated respectively; GPS receiving circuit A is used for receiving aerial GPS electromagnetic wave signal, and through its inner low noise radio-frequency amplifier, then TCXO frequency mixer, baseband decoding circuit, digital interface circuit transfer out to MCU circuit F and read; MCU circuit F determines user's latitude and longitude information in each second through processing.Along with the variation of longitude and latitude, MCU circuit F can calculate the information such as distance, speed, and the information such as MCU circuit F distance, speed send display circuit J to and show.Air pressure testing circuit B is used for detecting atmospheric gas pressure, and the air pressure signal detecting changes digital signal into through inner integrated A/D converter, then transfers out to MCU circuit F and reads; MCU circuit F draws atmospheric pressure value through calculating, process to process.MCU circuit F, according to the mapping table between atmospheric pressure value, sea-level pressure value, sea level elevation three, can calculate sea level elevation value, and MCU circuit F sends the sea level elevation information calculating to display circuit J and shows.Meter step testing circuit C is used for detecting the variation tendency of wrist acceleration of gravity in user movement process, through inner integrated A/D converter, changes digital signal into, then transfers out to MCU circuit F and reads; MCU circuit F draws step Numerical through calculating, process to process.MCU circuit F sends the step count information calculating to display circuit J and shows.Heart rate detection circuit D is used for detecting the frequency that in user movement process, wrist skin blood flows through, and through inner integrated operational amplifier, converts digital signal to, then transfers out to MCU circuit F and reads; MCU circuit F draws heart rate value through calculating, process to process.MCU circuit F sends the heart rate information calculating to display circuit J and shows.

In motion process, when user need to carry out motion segmentation or motion and registers, with hand, knock following table mirror 1, knock or touch detection circuit E starts working automatically, knock or the piezoelectric ceramic piece of touch detection circuit E the inside, piezoelectric ceramic piece changes into electric signal by vibration signal, through inner amplification, amplitude limit, shaping sends MCU circuit F to, knock or touch detection circuit E sends interrupt request singal to MCU circuit F, MCU circuit F response interrupt request is also carried out interrupt function, MCU circuit F can calculate the motion duration between two sections according to clock circuit H, the run duration of namely segmentation, MCU circuit F can calculate the distance between two sections according to GPS receiving circuit A, the move distance of namely segmentation, MCU circuit F can calculate the step number between two sections according to meter step testing circuit C, the motion step number of namely segmentation, MCU circuit F calculates the average velocity of segmentation according to the run duration of the move distance of segmentation and segmentation.The longitude and latitude that MCU circuit F can obtain this place according to the GPS receiving circuit A information of registering, the sea level elevation that MCU circuit F can obtain this place according to the air pressure testing circuit B information of registering, MCU circuit F can obtain according to heart rate detection circuit D the real-time heart rate information of this sign-in desk, MCU circuit F is the run duration of segmentation, the move distance of segmentation, the average velocity of segmentation, the motion step number of segmentation, the longitude and latitude of sign-in desk, the sea level elevation of sign-in desk, the real-time heart rate of sign-in desk sends display circuit J to and shows, simultaneously the run duration of segmentation, the move distance of segmentation, the average velocity of segmentation, the motion step number of segmentation, the longitude and latitude of sign-in desk, the sea level elevation of sign-in desk, the real-time heart rate of sign-in desk is stored in MCU circuit F the inside, by Bluetooth transmission circuit M, be shared with mobile phone again, computer etc.

After motion finishes, key circuit G sends stop motion instruction to MCU circuit F, MCU circuit F sends respectively command signal immediately to GPS receiving circuit A, air pressure testing circuit B, meter step testing circuit C, heart rate detection circuit D, and GPS receiving circuit A, air pressure testing circuit B, meter step testing circuit C, heart rate detection circuit D enter respectively sleep standby mode.

When MCU circuit F receives key circuit G, send data sharing instruction, MCU circuit F start immediately with Bluetooth transmission circuit M between communicate by letter, and send command signal to Bluetooth transmission circuit M, Bluetooth transmission circuit M is activated; Bluetooth transmission circuit M is used for the historical movement data, segment movement data, the exercise data of registering that are temporarily stored in MCU circuit F the inside to be shared with mobile phone, PAD or computer.

At each state, clock circuit H is for other unit circuit provides stable clock.

At each above-mentioned use state, user can open backlight circuit L by key circuit G, and its process is: key circuit G move instruction is to MCU circuit F, and MCU circuit F judges according to logic, then sends signal driver backlight circuit L.

In above-mentioned button operation process, MCU circuit F can be according to the whether legal effective judgement of button, if effective button, MCU circuit F sends key sound signal to sound circuit K, and sound circuit K is converted into keypad tone key sound signal.

Claims (3)

1. the wrist-watch that a utilization is knocked or touch table mirror carries out motion segmentation and registers, comprise table mirror (1), button (2), display screen (3), PCB circuit board (4), battery (10), watchcase (12), bottom (13), described watchcase (12) is interlockingly connected and forms a cavity with bottom (13), and PCB circuit board (4) is arranged in cavity; Table mirror (1) is located on watchcase (12); It is upper that described button (2) is connected in watchcase (12), and be connected with PCB circuit board (4); It is upper that described display screen (3) is located at watchcase (12), and be connected with PCB circuit board (4); Described battery (10) is located at the below of PCB circuit board (4), and is connected with PCB circuit board (4); It is characterized in that: also comprise baroceptor (5), gps antenna (6), GPS module (7), Gravity accelerometer (8), heart rate detection module (9), it is upper that described baroceptor (5) is located at PCB circuit board (4), and be connected with PCB circuit board (4); Described gps antenna (6) is located on the inwall of watchcase (12), and is connected with PCB circuit board (4); It is upper that described GPS module (7) is located at PCB circuit board (4), and be connected with PCB circuit board (4); It is upper that described Gravity accelerometer (8) is located at bottom (13), and be connected with PCB circuit board (4); It is upper that described heart rate detection module (9) is located at bottom (13), and be connected with PCB circuit board (4).

2. the wrist-watch that a kind of utilization according to claim 1 is knocked or touch table mirror carries out motion segmentation and registers, is characterized in that: described watchcase (12) is provided with water proof ring (11) with the junction of bottom (13).

3. the wrist-watch that a kind of utilization according to claim 1 is knocked or touch table mirror carries out motion segmentation and registers, it is characterized in that: described PCB circuit board (4) comprises GPS receiving circuit (A), air pressure testing circuit (B), meter step testing circuit (C), heart rate detection circuit (D), knock or touch detection circuit (E), MCU circuit (F), key circuit (G), clock circuit (H), reset circuit (I), display circuit (J), sound circuit (K), backlight circuit (L), Bluetooth transmission circuit (M), described GPS receiving circuit (A) changes into digital signal level by aerial GPS electromagnetic wave signal and sends MCU circuit (F) to and process, air pressure testing circuit (B) changes into digital signal level by atmospheric gas pressure signal and sends MCU circuit (F) to and process, meter step testing circuit (C) is converted into digital signal level by the acceleration of gravity signal in motion walking and sends MCU circuit (F) to and process, heart rate detection circuit (D) is converted into digital signal level by the mobile periodic signal of wrist blood and sends MCU circuit (F) to and process, knock or touch detection circuit (E) is converted into level signal by vibration signal and sends MCU circuit (F) to and process, key circuit (G) sends key commands information to MCU circuit (F), reset circuit (I) transmits reset signal to MCU circuit (F), clock circuit (H) transmission clock signal is to MCU circuit (F), MCU circuit (F) shows output information after information processing to display circuit (J), MCU circuit (F) output sound information is to sound circuit (K), described MCU circuit (F) is exported information backlight to backlight circuit (L), MCU circuit (F) output data information is to Bluetooth transmission circuit (M).

Images