CN203573106U - Watch used for quick measurement of heights, air pressures and compasses through five keys - Google Patents

Abstract

The utility model discloses a watch quick measurement of heights, air pressures and compasses through five keys, and the watch comprises a display screen, a first key, a second key, a third key, a fourth key, a fifth key, a watch mirror, a watchcase, a PCB (printed circuit board), a compass sensor, an MCU module, an air pressure sensor, a battery, and a bottom case. The watchcase and the bottom case form a cavity, and the PCB is disposed in the cavity. The watch mirror is disposed on the watchcase. The display screen is disposed on the watchcase. The five keys are respectively disposed on the watchcase. The battery is disposed under the PCB. The compass sensor and the MCU module are respectively disposed on the PCB, and are respectively connected with the PCB. The air pressure sensor is disposed on the inner wall of the watchcase, and is connected with the PCB. The watch provided by the utility model is simple in structure, is convenient to operate, and employs five keys to achieve the measurement of heights, air pressures, and compasses quickly.

Description

A kind of wrist-watch that utilizes five button Quick Measurement height air pressure compasses

Technical field

The utility model relates to the mountaineering wrist-watch field of measuring with height, air pressure, compass, temperature etc., refers more particularly to a kind of wrist-watch that utilizes five button Quick Measurement height air pressure compasses.

Background technology

Mountaineering wrist-watch refers to and integrates the multifunctional movement wrist-watch that height, air pressure, compass, temperature etc. are measured, its principle is: the built-in air pressure of wrist-watch, temperature and compass sensor, the atmospheric gas pressure of baroceptor testing environment, the relation about air pressure and altitude according to International Civil Aviation Organization (ICAO), calculates sea level elevation again; Temperature sensor can detect environment temperature; Compass sensor base area magnetic principle can be identified orientation, all directions; There is above-mentioned functions, can climb the mountain in the wild basic guidance is provided user.

There are on the market at present various mountain-climbing wrist-watches, be subject to the impact of display screen, substantially all can only accomplish English and digital, interactive, when doing height, air pressure, temperature, compass measurement, to be switched to different operator schemes by button, from the angle of interactive experience, user's experience sense is not strong.User will could use by being familiar with instructions, and use not convenient.The application carrys out Quick Measurement with a button separately respectively height, air pressure, compass, and from angle easy to use, shortcut key is all positioned at the right of dial plate, has well solved the problem of user interactions difficulty, has greatly increased user's experience sense.

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, wrist-watch of utilizing five button Quick Measurement height air pressure compasses is provided.

The utility model is realized in the following way:

A kind of wrist-watch that utilizes five button Quick Measurement height air pressure compasses, it is characterized in that: comprise display screen 1, the first button 2, the second button 3, the 3rd button 4, the 4th button 5, the 5th button 6, table mirror 7, watchcase 8, PCB circuit board 9, compass sensor 10, MCU assembly 11, baroceptor 12, battery 13, bottom 15, described watchcase 8 is interlockingly connected and forms a cavity with bottom 15, and PCB circuit board 9 is arranged in cavity; Table mirror 7 is located on watchcase 8; Described display screen 1 is located on watchcase 8, and is connected with PCB circuit board 9; Described the first button 2, the second button 3, the 3rd button 4, the 4th button 5, the 5th button 6 are located at respectively on watchcase 8, and are connected with PCB circuit board 9 respectively; Described battery 13 is located at the below of PCB circuit board 9, and is connected with PCB circuit board 9; Described compass sensor 10, MCU assembly 11 are located at respectively on PCB circuit board 9, and are connected with PCB circuit board 9 respectively; Described baroceptor 12 is located on the inwall of watchcase 8, and is connected with PCB circuit board 9.

Described watchcase 8 is provided with water proof ring 14 with the junction of bottom 15.

Described PCB circuit board 9 comprises compass testing circuit A, air pressure testing circuit B, MCU circuit C, key circuit D, clock circuit E, reset circuit F, display circuit G, sound circuit H, backlight circuit I; Described compass testing circuit A changes into digital signal level by Geomagnetic signal and sends MCU circuit C to and process; Air pressure testing circuit B changes into digital signal level by atmospheric gas pressure signal and sends MCU circuit C to and process; Key circuit D sends user instruction key information to MCU circuit C; Reset circuit F transmits reset signal to MCU circuit C; Clock circuit E delivery time signal is to MCU circuit C; MCU circuit C outputs signal to display circuit G and shows; MCU circuit C output sound signal is to sound circuit H; MCU circuit C output backlight signal is to backlight circuit I.

The utility model has the advantage of: simple in structure, easy and simple to handle, utilize the solution of the wrist-watch of five button Quick Measurement height air pressure compasses, well solved the problem of the mutual difficulty of mountaineering wrist-watch, increased user's experience sense.

Accompanying drawing explanation

Fig. 1 the utility model structural front view;

Fig. 2 the utility model structure side 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, a kind of wrist-watch that utilizes five button Quick Measurement height air pressure compasses, comprise display screen 1, the first button 2, the second button 3, the 3rd button 4, the 4th button 5, the 5th button 6, table mirror 7, watchcase 8, PCB circuit board 9, compass sensor 10, MCU assembly 11, baroceptor 12, battery 13, bottom 15, watchcase 8 is interlockingly connected and forms a cavity with bottom 15, and PCB circuit board 9 is arranged in cavity; Table mirror 7 is located on watchcase 8; Described display screen 1 is located on watchcase 8, and is connected with PCB circuit board 9; The first button 2, the second button 3, the 3rd button 4, the 4th button 5, the 5th button 6 are located at respectively on watchcase 8, and are connected with PCB circuit board 9 respectively; Battery 13 is located at the below of PCB circuit board 9, and is connected with PCB circuit board 9; Compass sensor 10, MCU assembly 11 are located at respectively on PCB circuit board 9, and are connected with PCB circuit board 9 respectively; Described baroceptor 12 is located on the inwall of watchcase 8, and is connected with PCB circuit board 9; Watchcase 8 is provided with water proof ring 14 with the junction of bottom 15.

As shown in Figure 3, Figure 4, PCB circuit board 9 of the present utility model comprises compass testing circuit A, air pressure testing circuit B, MCU circuit C, key circuit D, clock circuit E, reset circuit F, display circuit G, sound circuit H, backlight circuit I; Compass testing circuit A changes into digital signal level by Geomagnetic signal and sends MCU circuit C to and process; Air pressure testing circuit B changes into digital signal level by atmospheric gas pressure signal and sends MCU circuit C to and process; Key circuit D sends user instruction key information to MCU circuit C; Reset circuit F transmits reset signal to MCU circuit C; Clock circuit E delivery time signal is to MCU circuit C; MCU circuit C outputs signal to display circuit G and shows; MCU circuit C output sound signal is to sound circuit H; MCU circuit C output backlight signal is to backlight circuit I.

At usual state, each element circuit, in sleep state, reaches energy-conservation object.C retention time function of MCU circuit, sends temporal information to display circuit G displaying time information.

When MCU circuit C receives that the 3rd button 4 or the 4th button 5 or the 5th button 6 start key circuit D and send compass measurement instruction, MCU circuit C start immediately with compass testing circuit A between communicate by letter, and sending a command signal to compass testing circuit A, compass testing circuit A is activated; Compass testing circuit A is used for detecting terrestrial magnetic field degree, and the terrestrial magnetic field degree simulating signal detecting changes digital signal into through the inner integrated A/D converter of geomagnetic sensor, then transfers out to MCU circuit C and reads; MCU circuit C determines magnetic north and orientation angles through processing; MCU circuit C sends magnetic north and orientation angles information to display circuit G demonstration, also sends instruction simultaneously and gets back to sleep state to compass testing circuit A.

When MCU circuit C receives that the 3rd button 4 or the 4th button 5 or the 5th button 6 start key circuit D and send air pressure or temperature survey instruction, MCU circuit C start immediately with air pressure testing circuit B between communicate by letter, and sending a command signal to air pressure testing circuit B, air pressure testing circuit B is activated; Air pressure testing circuit B is used for detecting atmospheric gas pressure or environment temperature, and the air pressure detecting or temperature signal change digital signal into through inner integrated A/D converter, then transfer out to MCU circuit C and read; MCU circuit C draws air pressure and temperature value through calculating, process to process; MCU circuit C sends air pressure, temperature information to display circuit G and shows, also sends instruction simultaneously and gets back to sleep state to air pressure testing circuit B.

When MCU circuit C receives that the 3rd button 4 or the 4th button 5 or the 5th button 6 start key circuit D and send and highly measure instruction, MCU circuit C start immediately with air pressure testing circuit B between communicate by letter, and sending a command signal to air pressure testing circuit B, air pressure testing circuit B is activated; 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 C and reads; MCU circuit C draws atmospheric pressure value through calculating, process to process.MCU circuit C is according to the mapping table between atmospheric pressure value, sea-level pressure value, sea level elevation three, can calculate sea level elevation value, MCU circuit C sends the elevation information calculating to display circuit G and shows, also sends instruction simultaneously and gets back to sleep state to air pressure testing circuit B.

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

At each above-mentioned use state, user can open backlight circuit I by key circuit D; Its process is: key circuit D move instruction is to MCU circuit C, and MCU circuit C judges according to logic, then sends signal driver backlight circuit I.

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

Claims (3)

1. a wrist-watch that utilizes five button Quick Measurement height air pressure compasses, it is characterized in that: comprise display screen (1), the first button (2), the second button (3), the 3rd button (4), the 4th button (5), the 5th button (6), table mirror (7), watchcase (8), PCB circuit board (9), compass sensor (10), MCU assembly (11), baroceptor (12), battery (13), bottom (15), described watchcase (8) is interlockingly connected and forms a cavity with bottom (15), and PCB circuit board (9) is arranged in cavity; Table mirror (7) is located on watchcase (8); It is upper that described display screen (1) is located at watchcase (8), and be connected with PCB circuit board (9); It is upper that described the first button (2), the second button (3), the 3rd button (4), the 4th button (5), the 5th button (6) are located at respectively watchcase (8), and be connected with PCB circuit board (9) respectively; Described battery (13) is located at the below of PCB circuit board (9), and is connected with PCB circuit board (9); It is upper that described compass sensor (10), MCU assembly (11) are located at respectively PCB circuit board (9), and be connected with PCB circuit board (9) respectively; Described baroceptor (12) is located on the inwall of watchcase (8), and is connected with PCB circuit board (9).

2. a kind of wrist-watch that utilizes five button Quick Measurement height air pressure compasses according to claim 1, is characterized in that: described watchcase (8) is provided with water proof ring (14) with the junction of bottom (15).

3. a kind of wrist-watch that utilizes five button Quick Measurement height air pressure compasses according to claim 1, is characterized in that: described PCB circuit board (9) comprises compass testing circuit (A), air pressure testing circuit (B), MCU circuit (C), key circuit (D), clock circuit (E), reset circuit (F), display circuit (G), sound circuit (H), backlight circuit (I); Described compass testing circuit (A) changes into digital signal level by Geomagnetic signal and sends MCU circuit (C) to and process; Air pressure testing circuit (B) changes into digital signal level by atmospheric gas pressure signal and sends MCU circuit (C) to and process; Key circuit (D) sends user instruction key information to MCU circuit (C); Reset circuit (F) transmits reset signal to MCU circuit (C); Clock circuit (E) delivery time signal is to MCU circuit (C); MCU circuit (C) outputs signal to display circuit (G) and shows; MCU circuit (C) output sound signal is to sound circuit (H); MCU circuit (C) output backlight signal is to backlight circuit (I).

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