CN114859694A

CN114859694A - Solar time synchronization mechanical simulation digital flowering clock

Info

Publication number: CN114859694A
Application number: CN202210467437.0A
Authority: CN
Inventors: 邵跃明; 张放; 郭彦彪
Original assignee: Licheng Haisi Fujian Clock Industry Design And Research Co ltd; Zhangzhou Hengli Electronic Co ltd
Current assignee: Licheng Haisi Fujian Clock Industry Design And Research Co ltd; Zhangzhou Hengli Electronic Co ltd
Priority date: 2022-04-27
Filing date: 2022-04-27
Publication date: 2022-08-05

Abstract

The invention discloses a solar time synchronization mechanical simulation digital flowering clock, which comprises a clock system, a mechanical simulation flowering digital system and a solar power supply system; the invention adopts solar energy as energy, the Beidou/GPS satellite information receiving module receives satellite time signals as standard time, and long-time precision of time is realized by controlling the MCU to identify the time of the body and comparing and correcting the time with the standard time. The control MCU can control the mechanical simulation flower type digital system to orderly arrange the simulation flowers in real time, thereby forming digital time indication for the composition of the flowering flowers, realizing dynamic display of the opening and closing processes of the flowers in the time change process and embodying the dynamic aesthetic feeling of the simulation digital flowering clock.

Description

Solar time synchronization mechanical simulation digital flowering clock

Technical Field

The invention relates to the field of clocks, in particular to a solar time synchronization mechanical simulation digital flowering clock.

Background

Timepieces are a perfect combination of technology and art. As a time indicator, the clock not only indicates time, but also shows modern high-tech technologies such as light, machine, electricity, communication, materials and the like to people, and simultaneously bears a plurality of historical and cultural connotations, and the large building clock also has the functions of decorating, beautifying the environment and the like. Many cities around the world have installed (placed) a large clock on the square or building in the central region of the city as a landscape and urban landmark.

Most of the traditional clocks are improved in decoration effect through appearance change. The decoration is mainly static patterns and color structures, so that the aesthetic fatigue is easy to generate after the decoration is used for a long time by the public, and the people lack the dynamic sense.

The traditional clock is unstable in time reference, greatly influenced by external environments such as temperature and the like, and often has the problems of inaccurate travel time, pendulum stopping and the like, and the problem of travel time accuracy is more obvious along with the lengthening of the service time. If the time needs to be corrected, a person needs to correct the time manually at regular intervals, the operation is complex, and the use experience of a user is directly influenced by the time precision.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention aims to provide a solar time synchronization mechanical simulation digital flowering clock.

In order to achieve the purpose, the invention adopts the following technical scheme:

the solar time synchronization mechanical simulation digital flowering clock comprises a clock system, a mechanical simulation flowering digital system and a solar power supply system;

the clock system comprises a control MCU, a digital clock module and a Beidou/GPS satellite information receiving module;

the Beidou/GPS satellite information receiving module is used for receiving a satellite time signal as a standard time signal and sending the standard time signal to the control MCU;

the digital clock module is used for maintaining time frequency and regularly issuing real-time to the control MCU;

the control MCU is used for controlling the working time of the Beidou/GPS satellite information receiving module, correcting the internal time of the time module by utilizing the received standard time signal, issuing a corresponding instruction to the simulated flower system at regular time, realizing the opening or closing of the simulated flower according to the rule and realizing digital time indication;

the mechanical simulation flowering type digital system comprises a flowering control module and a plurality of simulated flowers, wherein the flowering control module is electrically connected to the control MCU, the plurality of simulated flowers are arranged to form the time of the digital clock, each simulated flower is electrically connected to the flowering control module, and the digital display of time hours and minutes is realized by controlling the opening and closing states of each mechanical simulated flower;

the solar power supply system provides power for a clock system and a mechanical bionic pattern digital system.

Further, the solar power supply system comprises a solar panel, a storage battery and a power management system, wherein the solar panel is used for converting solar energy and electric energy; the storage battery is used for storing the converted solar energy, and the power management system is used for coordinating charge and discharge matching.

Further, each artificial flower all includes base, sliding block, pistil and a plurality of petal, the petal bottom is rotated and is connected in the side of base, and it has folding arm to correspond each petal respectively between sliding block and the base, and the central part of each folding arm and the inboard fixed connection of the petal that corresponds respectively, pistil fixed connection is at the top of sliding block, and the central part of sliding block is connected to the drive flexible axle, and the other end of drive flexible axle is connected to driving motor, and each driving motor is connected with the control module electricity that blooms respectively.

The invention adopts solar energy as energy, the Beidou/GPS satellite information receiving module receives satellite time signals as standard time, and long-time precision of time is realized by controlling the MCU to identify the time of the body and comparing and correcting the time with the standard time. The control MCU can control the mechanical simulation flower type digital system to orderly arrange the simulation flowers in real time, thereby forming digital time indication for the composition of the flowering flowers, realizing dynamic display of the opening and closing processes of the flowers in the time change process and embodying the dynamic aesthetic feeling of the simulation digital flowering clock.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and the detailed description;

FIG. 1 is a front view of the present invention;

FIG. 2 is a rear view of the present invention;

fig. 3 is a schematic structural diagram of a simulated flower.

Detailed Description

Referring to fig. 1-3, the solar time synchronization mechanical simulation digital flowering clock of the present invention comprises a clock system 1, a mechanical simulation flowering type digital system 2 and a solar power supply system 3;

the clock system 1 comprises a control MCU, a digital clock module and a Beidou/GPS satellite information receiving module;

the mechanical simulation flowering type digital system 2 comprises a flowering control module and a plurality of simulated flowers, wherein the flowering control module is electrically connected to the control MCU, the plurality of simulated flowers are arranged to form the time of the digital clock, each simulated flower is electrically connected to the flowering control module, and the digital display of time hours and minutes is realized by controlling the opening and closing states of each mechanical simulated flower;

the solar power supply system 3 provides power for the clock system 1 and the mechanical bionic pattern digital system.

Further, the solar power supply system 3 comprises a solar panel, a storage battery and a power management system, wherein the solar panel is used for converting solar energy and electric energy; the storage battery is used for storing the converted solar energy, and the power management system is used for coordinating charge and discharge matching and protecting the charge and discharge system.

Further, each artificial flower all includes base 4, sliding block 5, pistil 7 and a plurality of petal 8, 8 bottoms of petals rotate to be connected in the side of base 4, and it has folding arm 9 to correspond each petal 8 and articulate respectively between sliding block 5 and the base 4, and the central part of each folding arm 9 and the inboard fixed connection of the petal 8 that corresponds respectively, pistil 7 fixed connection is at the top of sliding block 5, and the central part of sliding block 5 is connected to drive flexible axle 10, and the other end of drive flexible axle 10 is connected to driving motor 11, and each driving motor 11 is connected with the control module electricity that blooms respectively. The driving motor 11 outputs linear drive, the driving flexible shaft 10 transmits the linear motion driven by the driving motor 11 to the sliding block 5, and the folding arm 9 is driven to stretch by the stretching of the sliding block 5, so that the simulation petals 8 are driven to open and furl.

The invention takes solar energy as energy, the Beidou/GPS satellite information receiving module receives satellite time signals as standard time, and long-time precision of time is realized by controlling the MCU to identify the time of the body and comparing and correcting the time with the standard time. The control MCU can control the mechanical simulation flower type digital system to orderly arrange the simulation flowers in real time, thereby forming digital time indication for the composition of the flowering flowers, realizing dynamic display of the opening and closing processes of the flowers in the time change process and embodying the dynamic aesthetic feeling of the simulation digital flowering clock. As shown in FIG. 1, the time now shown by the flowering of the simulated flowers is 10: 33.

While the invention has been described in connection with the above embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, which are illustrative and not restrictive, and that those skilled in the art will understand that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.

Claims

1. Solar time synchronization mechanical simulation digital blooming clock is characterized in that: the solar energy clock comprises a clock system, a mechanical simulation flowering type digital system and a solar energy power supply system;

2. The solar time-synchronized mechanical simulated digital flowering clock of claim 1 wherein: the solar power supply system comprises a solar panel, a storage battery and a power management system, wherein the solar panel is used for converting solar energy and electric energy; the storage battery is used for storing the converted solar energy, and the power management system is used for coordinating charge and discharge matching.

3. The solar time-synchronized mechanical simulated digital flowering clock of claim 1 wherein: each artificial flower all includes base, sliding block, pistil and a plurality of petal, the petal bottom is rotated and is connected in the side of base, and it has folding arm to correspond each petal respectively between sliding block and the base, and the central part of each folding arm and the inboard fixed connection of the petal that corresponds respectively, pistil fixed connection is at the top of sliding block, and the central part of sliding block is connected to the drive flexible axle, and the other end of drive flexible axle is connected to driving motor, and each driving motor is connected with the control module electricity that blooms respectively.