CN204515360U - A kind of wrist-watch utilizing wrist-watch motion recording to be accessed race system - Google Patents
A kind of wrist-watch utilizing wrist-watch motion recording to be accessed race system Download PDFInfo
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- CN204515360U CN204515360U CN201520109741.3U CN201520109741U CN204515360U CN 204515360 U CN204515360 U CN 204515360U CN 201520109741 U CN201520109741 U CN 201520109741U CN 204515360 U CN204515360 U CN 204515360U
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- watch
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Abstract
The utility model discloses a kind of wrist-watch utilizing wrist-watch motion recording to be accessed race system, PCB is provided with in described wrist-watch, RFID tag, gps antenna, GPS module, bluetooth module, described RFID tag, gps antenna, GPS module, bluetooth module is connected with PCB respectively, described PCB comprises RFID antenna circuit, RFID label tag circuit, GPS receiving circuit, MCU circuit, key circuit, clock circuit, reset circuit, display circuit, data storage circuitry, buzzer drive circuit, backlight drive circuit, bluetooth module circuit, the utility model RFID tag is placed on wrist-watch inside, solve the problem that RFID tag that current player wears easily is lost, simultaneously in conjunction with the exercise data acquisition function of wrist-watch, compensate for the defects such as RFID tag image data function singleness.
Description
Technical field
The utility model relates to sports watch field, refers more particularly to a kind of wrist-watch utilizing wrist-watch motion recording to be accessed race system.
Background technology
On some large-scale sport events, the achievement of player is gathered by electronic chip, its principle is: each player carries with a RFID tag, this radio-frequency (RF) tag is through fixed location (starting point, terminal, set-point, midway) time, the RFID reader antenna that fixed location is placed is to RFID tag feed, send inquiry code simultaneously, after RFID tag receives inquiry code, identity code unique in RFID tag ROM is sent to RFID reader, RFID reader is after the identification code of the RFID tag received, in conjunction with timekeeping system, the data of collection point are sent to background server system, complete a data acquisition of player, by multiple spot (at least starting point, terminal) gather, the collection of player performance can be completed.
At present along with the development of MEMS sensor technology, the integrated motor function of wrist-watch from strength to strength, such as: highly, orientation, location, heart rate etc., user can obtain the exercise data of every aspect, after having moved, user wishes exercise data to preserve, and even exercise data is shared internet.
The RFID tag of current player or be worn on shoes, be attached on number paper, there is the easily defect such as loss, image data function singleness.
Utility model content
The purpose of this utility model is overcome above-mentioned weak point of the prior art and provide a kind of wrist-watch utilizing wrist-watch motion recording to be accessed race system.
The utility model realizes in the following way:
A kind of wrist-watch utilizing wrist-watch motion recording to be accessed race system, it is characterized in that: in described wrist-watch, be provided with PCB 6, RFID tag 7, gps antenna 8, GPS module 9, bluetooth module 10, described RFID tag 7, gps antenna 8, GPS module 9, bluetooth module 10 is connected with PCB 6 respectively, described PCB 6 comprises RFID antenna circuit A, RFID label tag circuit B, GPS receiving circuit C, MCU circuit D, key circuit E, clock circuit F, reset circuit G, display circuit H, data storage circuitry I, buzzer drive circuit J, backlight drive circuit K, bluetooth module circuit L, described RFID antenna circuit A receives the feed of RFID reader, power supply is provided to RFID label tag circuit B, RFID label tag circuit B accepts RFID antenna circuit A feed, RFID identity recognition number is sent to RFID antenna circuit A, simultaneously trigger event signal to MCU circuit D, the longitude and latitude received is converted into voltage signal and sends MCU circuit D process to by GPS receiving circuit C, key information is sent to MCU circuit D by key circuit E, clock circuit F transmission clock signal is to MCU circuit D, reset circuit G transmits reset signal to MCU circuit D, MCU circuit D transmission signal is to display circuit H displaying time, information, MCU circuit D transmission signal stores data to data storage circuitry I, MCU circuit D transmission signal is to buzzer drive circuit J ring, MCU circuit D transmission signal lights backlight to backlight drive circuit K, MCU circuit D transmission signal carries out exchanges data to bluetooth module circuit L and mobile device end.
The utility model has the advantage of: RFID tag is placed on wrist-watch inside, well solve the problem that RFID tag that current player wears easily is lost, simultaneously in conjunction with the exercise data acquisition function of wrist-watch, well compensate for the defects such as RFID tag image data function singleness.
Accompanying drawing explanation
Fig. 1 the utility model structural representation.
Fig. 2 the utility model schematic block circuit diagram;
Fig. 3 the utility model circuit diagram.
Embodiment
Now by reference to the accompanying drawings, the utility model embodiment is described in detail in detail:
As shown in Figure 1, Figure 2, Figure 3 shows, a kind of wrist-watch utilizing wrist-watch motion recording to be accessed race system, comprises display screen, button, table mirror, watchcase, PCB 6, bottom, RFID tag 7, gps antenna 8, GPS module 9, bluetooth module 10, watchcase and bottom are interlockingly connected formation one cavity, and PCB 6 is arranged in cavity, table mirror is located on watchcase, display screen is located in PCB 6, and is connected with PCB 6, and button is located on watchcase, and is connected with PCB 6, RFID tag 7 and gps antenna 8 are connected on watchcase, and are connected with PCB 6 respectively, GPS module 9 and bluetooth module 10 are connected in PCB 6, and are connected with PCB 6 respectively, PCB 6 comprises RFID antenna circuit A, RFID label tag circuit B, GPS receiving circuit C, MCU circuit D, key circuit E, clock circuit F, reset circuit G, display circuit H, data storage circuitry I, buzzer drive circuit J, backlight drive circuit K, bluetooth module circuit L, described RFID antenna circuit A receives the feed of RFID reader, power supply is provided to RFID label tag circuit B, RFID label tag circuit B accepts RFID antenna circuit A feed, RFID identity recognition number is sent to RFID antenna circuit A, simultaneously trigger event signal to MCU circuit D, the longitude and latitude received is converted into voltage signal and sends MCU circuit D process to by GPS receiving circuit C, key information is sent to MCU circuit D by key circuit E, clock circuit F transmission clock signal is to MCU circuit D, reset circuit G transmits reset signal to MCU circuit D, MCU circuit D transmission signal is to display circuit H displaying time, information, MCU circuit D transmission signal stores data to data storage circuitry I, MCU circuit D transmission signal is to buzzer drive circuit J ring, MCU circuit D transmission signal lights backlight to backlight drive circuit K, MCU circuit D transmission signal carries out exchanges data to bluetooth module circuit L and mobile device end.
RFID antenna circuit A: the triggering accepting RFID reader, provides power supply to RFID label tag circuit B, and RFID label tag circuit B sends RFID identification code to RFID reader by RFID antenna circuit A simultaneously.
RFID label tag circuit B: the triggering accepting RFID antenna circuit A, sends RFID identification code to RFID antenna circuit A simultaneously, trigger event is sent to MCU circuit D simultaneously.
GPS receiving circuit C: the longitude and latitude signal received is converted into voltage signal.
MCU circuit D: according to various input signal, carries out arithmetic, logical operation, Machining Analysis, outputs signal to display screen displaying time, memory circuit stores data, reminds to hummer, send data to bluetooth module.
Key circuit E: input various user instruction to MCU circuit D.
Clock circuit F: provide stable clock signal to MCU circuit D.
Reset circuit G: provide reliable reset signal to MCU circuit D.
Display circuit H: accept MCU circuit D signal, displaying time, information.
Data storage circuitry I: accept MCU circuit D signal, temporary exercise data data.
Buzzer drive circuit J: accept MCU circuit D signal, drives hummer.
Backlight drive circuit K: accept MCU circuit D signal, bias light is provided.
Bluetooth module circuit L: accept MCU circuit D signal, realize exchanges data with server system.
When match starts, player wears above-mentioned wrist-watch, player can send motion request instruction by key circuit E to MCU circuit D, after MCU circuit D receives key circuit E ejecting motion request instruction, MCU circuit D starts immediately and communicates with GPS receiving circuit C, and sending a command signal to GPS receiving circuit C, GPS receiving circuit C is activated; Aerial weak electromagnetic ripple signal is changed into faint voltage signal by the gps antenna that GPS receiving circuit C connects, faint voltage signal through inner High frequency amplification, mixing, lowly to put, detection, analog to digital conversion, be then transferred to MCU circuit D and read; MCU circuit D draws latitude and longitude information through calculating, processing process, cumulative MCU circuit D through after a while just can calculate track, speed, the distance of walking during this period of time or running, track, speed, distance are temporarily stored in data storage circuitry I by MCU circuit D, show for display circuit H, or directly to be uploaded onto the server system by bluetooth module circuit L, if want the halt instruction of stop motion key circuit E ejecting motion, MCU circuit D sends instruction immediately to GPS receiving circuit C, allows it get back to sleep state;
When player enters the aerial radiation scope of RFID reader, RFID reader gives RFID antenna circuit A feed automatically, after RFID antenna circuit A obtains feed, power supply is provided to RFID label tag circuit B, RFID label tag circuit B is activated, RFID label tag circuit B starts timing, simultaneously RFID label tag circuit B starts the inquiry code of waiting for that RFID reader sends, after RFID label tag circuit B receives the inquiry code of RFID reader transmission, automatically to RFID reader response unique identities identification code, after RFID reader receives unique identities identification code, the high-precision timekeeping system of connecting inner, accurately can draw the precise time of this player through this point, and the unique identities identification code of this player and the time receiving player's unique identities identification code are uploaded to server system in the lump, so complete the data acquisition of player's a single point, gather the data of player through multiple spot, and pass to server system, server system can calculate the games results of this player, RFID label tag circuit B sends a signal to MCU circuit D simultaneously, MCU circuit D takes out a longitude and latitude automatically from GPS receiving circuit C, time, and be stored in data storage circuitry I, after having competed, player can send instruction by key circuit E and upload the information of registering of this point to server system to MCU circuit D, MCU circuit D automatic activation bluetooth module circuit L, and the longitude and latitude stored before taking out from data storage circuitry I, time, and be uploaded to server system by bluetooth module circuit L, show positional information and the temporal information of this point on the server systems, complete the function of once automatically checking card, if exercise data is sent, bluetooth module circuit L sends data status request signal to MCU circuit D, MCU circuit D response request signal, and MCU circuit D sends instruction to bluetooth module circuit L, close bluetooth module circuit L application, allow it get back to sleep state,
In operating process, have various state to remind, MCU circuit D sends instruction to buzzer drive circuit J, and buzzer drive circuit J drives the buzzer rings on wrist-watch to carry out reminding user; If in night time operation, can send backlight request by key circuit E to MCU circuit D, MCU circuit D sends backlight instruction to backlight drive circuit K, and backlight drive circuit K can light bias light;
At normal state, each element circuit is in sleep state, reaches energy-conservation object; MCU circuit D retention time function, MCU circuit D sends temporal information to display circuit H displaying time information; RFID antenna circuit A, RFID label tag circuit B, GPS receiving circuit C, bluetooth module circuit L are in dormant state;
In each state, clock circuit F is for MCU circuit D provides stable clock source; Reset circuit G is for MCU circuit D provides stable reset source.
Claims (1)
1. utilize wrist-watch motion recording to be accessed a wrist-watch for race system, it is characterized in that: in described wrist-watch, be provided with PCB (6), RFID tag (7), gps antenna (8), GPS module (9), bluetooth module (10), described RFID tag (7), gps antenna (8), GPS module (9), bluetooth module (10) is connected with PCB (6) respectively, and described PCB (6) comprises RFID antenna circuit (A), RFID label tag circuit (B), GPS receiving circuit (C), MCU circuit (D), key circuit (E), clock circuit (F), reset circuit (G), display circuit (H), data storage circuitry (I), buzzer drive circuit (J), backlight drive circuit (K), bluetooth module circuit (L), described RFID antenna circuit (A) receives the feed of RFID reader, power supply is provided to RFID label tag circuit (B), RFID label tag circuit (B) accepts RFID antenna circuit (A) feed, RFID identity recognition number is sent to RFID antenna circuit (A), simultaneously trigger event signal to MCU circuit (D), the longitude and latitude received is converted into voltage signal and sends MCU circuit (D) to and process by GPS receiving circuit (C), key information is sent to MCU circuit (D) by key circuit (E), clock circuit (F) transmission clock signal is to MCU circuit (D), reset circuit (G) transmits reset signal to MCU circuit (D), MCU circuit (D) transmission signal is to display circuit (H) displaying time, information, MCU circuit (D) transmission signal stores data to data storage circuitry (I), MCU circuit (D) transmission signal is to buzzer drive circuit (J) ring, MCU circuit (D) transmission signal lights backlight to backlight drive circuit (K), MCU circuit (D) transmission signal carries out exchanges data to bluetooth module circuit (L) and mobile device end.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520109741.3U CN204515360U (en) | 2015-02-15 | 2015-02-15 | A kind of wrist-watch utilizing wrist-watch motion recording to be accessed race system |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520109741.3U CN204515360U (en) | 2015-02-15 | 2015-02-15 | A kind of wrist-watch utilizing wrist-watch motion recording to be accessed race system |
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| Publication Number | Publication Date |
|---|---|
| CN204515360U true CN204515360U (en) | 2015-07-29 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201520109741.3U Expired - Fee Related CN204515360U (en) | 2015-02-15 | 2015-02-15 | A kind of wrist-watch utilizing wrist-watch motion recording to be accessed race system |
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106339738A (en) * | 2016-10-11 | 2017-01-18 | 深圳智美运动科技有限公司 | Intelligent sensing system and method for running exercise |
| CN112036529A (en) * | 2020-08-26 | 2020-12-04 | 西安菲猫创达智能技术有限公司 | Marathon score calculation method |
-
2015
- 2015-02-15 CN CN201520109741.3U patent/CN204515360U/en not_active Expired - Fee Related
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106339738A (en) * | 2016-10-11 | 2017-01-18 | 深圳智美运动科技有限公司 | Intelligent sensing system and method for running exercise |
| CN112036529A (en) * | 2020-08-26 | 2020-12-04 | 西安菲猫创达智能技术有限公司 | Marathon score calculation method |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| C41 | Transfer of patent application or patent right or utility model | ||
| TR01 | Transfer of patent right |
Effective date of registration: 20170123 Address after: The orangery Chau Jinshan Industrial Zone Cangshan District Fuzhou City Cang garden Fujian 350001 building 15 Patentee after: FUJIAN EZON INFORMATION TECHNOLOGY CO., LTD. Address before: Cangshan District of Fuzhou City, Fujian province 362300 to build a new town, Jinshan Industrial Zone Cangshan Park Patentee before: Fuzhou Emax Electronic Co., Ltd. |
|
| CF01 | Termination of patent right due to non-payment of annual fee | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20150729 Termination date: 20200215 |