CN117092901A - Method for adjusting wireless receiving mode of wireless receiving timer - Google Patents

Abstract

The invention discloses a method for adjusting a wireless receiving mode of a wireless receiving timer, which comprises the following steps: s1, pressing a key for a few seconds to enable a corresponding minute hand to jump for a plurality of times, taking the number of times of the corresponding minute hand jump as the number of days of the automatic adjustment interval time, and storing the number of times of the corresponding minute hand jump in a memory of an MCU as an adjustable wireless receiving mode; s2, after stopping pressing, the second hand, the hour hand and the minute hand return to 12 points, and then the MCU controls the motor according to the time code signal of the wireless receiving module, and the motor controls the pointer gear set to automatically calibrate the correct time as the first adjustment; s3, according to the step S1, the time is automatically calibrated once every time the interval time is reached. The user can conveniently adjust the timing according to the needs, and the wireless receiving timer is adjusted to automatically adjust the interval time of timing.

Description

Method for adjusting wireless receiving mode of wireless receiving timer

Technical Field

The invention relates to the field of wireless receiving timers, in particular to a method for adjusting a wireless receiving mode of a wireless receiving timer.

Background

Wireless receive timers, including radio wave clocks, wiFi clocks, bluetooth clocks, etc.

Taking an electric wave clock as an example, the electric wave clock is a timing tool for ensuring time accuracy by receiving a wireless signal of a national time service center, and the working principle of the electric wave clock is as follows: firstly, a standard time signal is encoded by a standard time timing center, and the time signal is transmitted in a radio wavelength wave by utilizing a low-frequency (20 KHz-80 KHz) carrier mode. The radio-controlled clock receives the low-frequency radio time code signal through the built-in micro radio receiving system, the MCU conducts time code signal mediation, and the control mechanism built in the timing device automatically adjusts the timing of the radio-controlled clock. By such a process, all the radio wave clocks receiving the standard time signal are kept highly synchronized with the standard time of the standard time service center, and all the radio wave clocks show exactly the same time.

Taking a radio-controlled clock as an example, the radio-controlled clock is generally shipped from the factory and is adjusted once by default for one week. The user cannot adjust by himself. The user needs, and the demand wave clock can have the function of adjusting by oneself according to needs.

The present invention has been completed.

Disclosure of Invention

In view of the above, the present invention provides a method for adjusting a wireless reception mode of a wireless reception timer, which is capable of facilitating a user to adjust timing according to needs, and adjusting an interval time of the wireless reception timer for automatic adjustment of timing.

The adopted technical scheme is as follows:

a method for adjusting wireless receiving mode of wireless receiving timer includes the following steps:

s1, pressing a key for a few seconds to enable a corresponding minute hand to jump for a plurality of times, taking the number of times of the corresponding minute hand jump as the number of days of the automatic adjustment interval time, and storing the number of times of the corresponding minute hand jump in a memory of an MCU as an adjustable wireless receiving mode;

s2, after stopping pressing, the second hand, the hour hand and the minute hand return to 12 points, and then the MCU controls the motor according to the time code signal of the wireless receiving module, and the motor controls the pointer gear set to automatically calibrate the correct time as the first adjustment;

s3, according to the step S1, the time is automatically calibrated once every time the interval time is reached.

Further, in S1, the key has a structure of connecting minute hand, so that the key is pressed for several seconds, and the corresponding minute hand jumps several times.

Further, the key is connected with the minute hand through a gear device.

Further, in S1, the key is electrically connected to the MCU, so that a signal of the time of pressing the key can be transmitted to the MCU.

Further, in S2, a pressing signal generated by pressing a key is transmitted to an MCU, the MCU controls a motor, and the motor controls a second hand, an hour hand and a minute hand of a pointer gear set to be reset and overlapped to a 12-point position; then the MCU controls the motor to control the second hand, the hour hand and the minute hand of the pointer gear set to automatically rotate according to the time code signal of the wireless receiving module, and correct time is calibrated.

Further, the wireless receiving module is one of radio waves, wi F i, bluetooth and GPS.

Further, in S1, the number of minute hand hops is made smaller than 7.

Further, in S1, 3 hops are automatically adjusted 1 time at intervals of 3 days, or 4 hops are automatically adjusted 1 time at intervals of 4 days.

Further, the wireless receiving timer is a radio wave clock.

The invention has the beneficial effects that:

the time of the time adjustment is automatically adjusted by the wireless receiving timer, so that the user can conveniently and automatically adjust the time adjustment according to the needs.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of a radio-controlled timepiece.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

A wireless receiving timer wireless receiving mode adjusting method, the wireless receiving timer of this embodiment is a radio wave clock. The wireless receiving mode is a mode for timing through the wireless receiving module; taking a radio-controlled clock as an example, the factory is usually automatically adjusted once in 1 week. In order to enable the number of times of receiving the radio receiving module to be adjusted by a user according to the requirement, the method for adjusting the radio receiving mode of the radio wave clock of the embodiment comprises the following steps:

s1, pressing a key for a few seconds to enable a corresponding minute hand to jump for a plurality of times, taking the number of times of the corresponding minute hand jump as the number of days of the automatic adjustment interval time, and storing the number of times of the corresponding minute hand jump in a memory of an MCU as an adjustable wireless receiving mode; for this reason, the key has a structure to connect minute hand, so that the key is pressed for several seconds, and the corresponding minute hand jumps several times. Specifically, the key is connected with the minute hand through a gear device. And pressing a key, rotating a gear, and jumping a corresponding minute hand. The longer the pressing time, the more hops. Pressing for a few seconds, the corresponding minute hand jumps several times. Thus, the jumping of pressing the key and the minute hand can be achieved by a mechanical structure. The MCU and the memory are arranged in the radio wave movement of the radio wave clock. The key is electrically connected with the MCU, so that a signal of the time of key pressing can be transmitted to the MCU. The number of hops between the pressing time (seconds) and the minute hand may be in one-to-one correspondence, for example, the pressing time N seconds corresponds to the number of hops between the minute hand N times. The time (days) of the interval between two auto-timing is determined according to the number of hops. Preferably, the number of minute hand hops is made smaller than 7.

S2, after stopping pressing, namely after no pressing the keys, the second hand, the hour hand and the minute hand return to 12 points, specifically, a pressing signal generated by pressing the keys is transmitted to the MCU, the MCU controls the motor, and the motor controls the second hand, the hour hand and the minute hand of the pointer gear set to return to coincide to 12 points; then, according to the time code signal of the wireless receiving module, the MCU controls the motor, and the motor controls the second hand, the hour hand and the minute hand of the pointer gear set to automatically rotate, and correct time is automatically calibrated and used as first adjustment;

the wireless receiving module can be one of electric wave, wiFi, bluetooth and GPS. The embodiment is an electric wave clock, and the wireless receiving module selects electric waves.

S3, according to the step S1, the time is automatically calibrated once every time the interval time is reached. For example, 3 hops are automatically adjusted 1 time at intervals of 3 days, or 4 hops are automatically adjusted 1 time at intervals of 4 days. Whether the adjustment is automatically performed 1 time every 3 days or 1 time every 4 days, the key can be pressed to readjust according to the requirement.

The time of the corresponding jump of the minute hand is used as the number of days of the automatic adjustment interval time by pressing the key for a few seconds, the minute hand jumps for a few times, so that a user can conveniently and automatically adjust the timing according to the needs, and the interval time of the automatic adjustment timing of the wireless receiving timer is adjusted, for example, 1 time is automatically adjusted at intervals of 3 days.

For a more complete disclosure of the present invention. See the schematic structure of a wave clock shown in fig. 1. The electric wave clock comprises an antenna 1, a signal receiving circuit 2, a microprocessor MCU 3, a motor 4, a pointer gear set 5, a battery 6 and a key 7. The hand gear set includes a minute hand gear set 51, a second hand gear set 52, and an hour hand gear set 53.

During normal operation, the time code signal received by the antenna is transmitted to the microprocessor MCU by the signal receiving circuit, the microprocessor MCU adjusts 12 points into a walking reference point, calculates the position of a pointer to be walked, drives the motor, drives the pointer gear set, and indicates correct time by the time, minute and second pointers. The hand gear set comprises an hour hand gear set, a minute hand gear set and a second hand gear set. The battery is connected with the microprocessor MCU for power supply.

Wherein the key presses may correspond to the jitter of the minute hand, and the number of times of the minute hand that is then jumped corresponds to the time (days) of the interval between the two times of automatic timing. Pressing the key can be achieved through a mechanical structure; the number of minutes of jumping corresponding to the time (days) of the interval between the two times of automatic timing may be performed by the MCU. Thus, the user can automatically adjust the timing by pressing the key and automatically adjust the interval time (days) of the timing.

The above list of detailed descriptions is only specific to practical embodiments of the present invention, and they are not intended to limit the scope of the present invention, and all equivalent embodiments or modifications that do not depart from the spirit of the present invention should be included in the scope of the present invention.

Claims (9)

1. A method for adjusting a wireless reception mode of a wireless reception timer, comprising the steps of:

s1, pressing a key for a few seconds to enable a corresponding minute hand to jump for a plurality of times, taking the number of times of the corresponding minute hand jump as the number of days of the automatic adjustment interval time, and storing the number of times of the corresponding minute hand jump in a memory of an MCU as an adjustable wireless receiving mode;

s2, after stopping pressing, the second hand, the hour hand and the minute hand return to 12 points, and then the MCU controls the motor according to the time code signal of the wireless receiving module, and the motor controls the pointer gear set to automatically calibrate the correct time as the first adjustment;

s3, according to the step S1, the time is automatically calibrated once every time the interval time is reached.

2. The method according to claim 1, wherein in S1, the key has a structure to connect minute hand, so that the key is pressed for several seconds, and the corresponding minute hand jumps several times.

3. The method for adjusting a wireless reception mode of a wireless reception timer according to claim 1, wherein the key is connected to the minute hand via a gear device.

4. The method according to claim 1, wherein in S1, the key is electrically connected to the MCU, so that a signal of a time of pressing the key can be transmitted to the MCU.

5. The method for adjusting the wireless receiving mode of the wireless receiving timer according to claim 1, wherein in S2, a pressing signal generated by pressing a key is transmitted to the MCU, the MCU controls a motor, and the motor controls the second hand, the hour hand and the minute hand of the hand gear set to coincide to 12-point positions; then the MCU controls the motor to control the second hand, the hour hand and the minute hand of the pointer gear set to automatically rotate according to the time code signal of the wireless receiving module, and correct time is calibrated.

6. The method of claim 1, wherein the wireless receiving module is one of radio, wiFi, bluetooth and GPS.

7. The method according to claim 1, wherein in S1, the number of minute hand hops is made smaller than 7.

8. The method according to claim 7, wherein in S1, the step is performed 3 times at intervals of 3 days for automatic adjustment 1 time, or the step is performed 4 times at intervals of 4 days for automatic adjustment 1 time.

9. The method for adjusting a radio reception mode of a radio reception timer according to claim 1, wherein the radio reception timer is a radio wave clock.