CN111930003A

CN111930003A - Color screen time display method combining digital clock and normal human chromosome model

Info

Publication number: CN111930003A
Application number: CN202010866641.0A
Authority: CN
Inventors: 孙波
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-08-25
Filing date: 2020-08-25
Publication date: 2020-11-13

Abstract

The invention discloses a color screen time display method combining a digital clock and a normal human chromosome model, which comprises the following steps: s101: according to the form of 23 pairs of chromosomes of a human body, corresponding three-dimensional chromosome models are respectively made according to the size proportion, and according to the numbering mode of autosomes in a universal description system-Denver system composed of intracellular chromosomes in the world, 22 pairs of autosomes are numbered from large to small in the order of size, and the number of XY/XX chromosomes is 23. The color screen time display method combining the digital clock and the normal human chromosome model can display time and the number of the corresponding chromosome, and the corresponding chromosome model can be seen every time, so that the aim of learning the biological normal human chromosome knowledge can be fulfilled.

Description

Color screen time display method combining digital clock and normal human chromosome model

Technical Field

The invention relates to the technical field of digital clocks, in particular to a color screen time display method combining a digital clock and a normal human chromosome model.

Background

The digital clock is a clock with an analog dial replaced by a digital display, and the digital clock reflects the time on the display by using numbers, and can simultaneously display time, minutes and seconds and accurately correct the time, minutes and seconds.

The biology is the indispensable lesson of moving a door of student's study, wherein involve the study to the chromosome, and the digital clock is used for showing time information, for the convenience of student real-time and teacher know the time, the general way is to install a digital clock at the blackboard department in classroom, but the current time state of single digital clock intelligence display, the function is single, for more lively make the student know the chromosome of biological clock, strengthen student's impression, consequently combine together human chromosome form and digital clock, can observe human chromosome form when observing the digital clock, make student's study more lively, strengthen student's impression, on the basis of this, propose the color screen time display method that digital clock and normal human chromosome model combine.

Disclosure of Invention

The invention aims to provide a color screen time display method combining a digital clock and a normal human chromosome model, wherein the corresponding chromosome model can be seen when each time is seen, and the aim of learning the biological normal human chromosome knowledge is achieved while the time is seen, so that the problem that the existing digital clock in the background art is single in function is solved.

In order to achieve the purpose, the invention provides the following technical scheme: the color screen time display method combining the digital clock and the normal human chromosome model comprises the following steps:

s101: respectively making corresponding three-dimensional chromosome models according to the form of 23 pairs of chromosomes of a human body and the size ratio, numbering 22 pairs of autosomes from large to small in the number sequence of No. 01, No. 02, No. 03. The life time is 0, 01, 02, 03, 22, 23, 24 hours in total, No. 01 corresponds to 01, No. 02 corresponds to 02, No. 03 corresponds to 03, and so on, and No. 23 corresponds to 23;

s102: dividing the time periods of 0 hour, 01 hour, 02 hour, 03 hour, 22 hour, 23 hour and the like into two time periods of morning and afternoon by the time periods of 0 hour to 12 hour and 12 to 0 hour, marking nodes of all the time periods on a dial plate, uniformly distributing outer diameter tracks of the dial plate on the outer diameter tracks of the dial plate, and arranging a small ball on the outer diameter tracks of the dial plate to rotate clockwise;

s103: a three-dimensional chromosome model display disc is arranged in the center of the dial plate, the three-dimensional chromosome models with various numbers are sequentially and independently displayed on the three-dimensional chromosome model display disc, and a coding display screen is arranged on the dial plate on the upper side of the three-dimensional chromosome model display disc and used for displaying the numbers corresponding to the displayed three-dimensional chromosome models; a clock display screen is arranged on a dial plate on the lower side of the stereoscopic chromosome model display disc, a DNA double strand is displayed at the middle end of the clock display screen, a tens digit of a minute hand is displayed on the clock display screen on the left side of the DNA double strand, and a units digit of the minute hand is displayed on the clock display screen on the right side of the DNA double strand.

Preferably, in S103, the model is perpendicular to the horizontal direction when the stereoscopic chromosome model at the upper end of the stereoscopic chromosome model display disc is in a static state, the stereoscopic chromosome model display disc can freely swing and rotate along the center of the circle, and each pair of the stereoscopic chromosome models can be displayed in different colors.

Preferably, the model corresponding to 0 in S101 is a DNA strand in the vertical and horizontal direction, the DNA strand can freely rotate around the center of a circle, and the digital clock is displayed synchronously with the chromosome model.

Preferably, the small and round ball in S102 rotates around the outer diameter once per minute.

Preferably, the DNA double strand in S103 is displayed with different gradient colors along with time, and the DNA double strand rotates counterclockwise.

Compared with the prior art, the invention has the beneficial effects that: the color screen time display method combining the digital clock and the normal human chromosome model can display time and the number of the corresponding chromosome, and the corresponding chromosome model can be seen every time, so that the aim of learning the biological normal human chromosome knowledge can be fulfilled.

Drawings

FIG. 1 is a time display implementation of the present invention;

FIG. 2 shows a chromosome model and a code map according to the present invention.

Detailed Description

The technical solutions in 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 obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-2, a method for displaying a color screen time by combining a digital clock with a normal human chromosome model includes the following steps:

the first step is as follows: respectively making corresponding three-dimensional chromosome models according to the form of 23 pairs of chromosomes of a human body and the size ratio, numbering 22 pairs of autosomes from large to small in the number sequence of No. 01, No. 02, No. 03. The life time is 0, 01, 02, 03, 22, 23, 24 hours in total, No. 01 corresponds to 01, No. 02 corresponds to 02, No. 03 corresponds to 03, and so on, and No. 23 corresponds to 23;

the second step is that: dividing the time periods of 0 hour, 01 hour, 02 hour, 03 hour, 22 hour, 23 hour and the like into two time periods of morning and afternoon by 0 hour-12 hour, and marking nodes of each time period on a dial plate, wherein an outer diameter track of the dial plate is uniformly distributed on an outer diameter track of the dial plate, a small round ball is arranged on the outer diameter track of the dial plate to rotate clockwise, the small round ball rotates around the outer circle for one minute, the number of units displaying minute hands on a clock display screen on the right side of a DNA double chain is increased by 1 every minute, and when the number of the minute hands on the clock display screen on the left side of the DNA double chain reaches 60 hours, the number of the minute hands is increased by 1;

the third step: a three-dimensional chromosome model display disc is arranged in the center of the dial plate, the three-dimensional chromosome models with various numbers are sequentially and independently displayed on the three-dimensional chromosome model display disc, and a coding display screen is arranged on the dial plate on the upper side of the three-dimensional chromosome model display disc and used for displaying the numbers corresponding to the displayed three-dimensional chromosome models; the dial plate on the lower side of the three-dimensional chromosome model display disc is provided with a clock display screen, the middle end of the clock display screen displays a DNA double strand, the tens of the minute hand is displayed on the clock display screen on the left side of the DNA double strand and can be 0, 1, 2, 3, 4, 5, 6, 7, 8 and 9, and the units of the minute hand are displayed on the clock display screen on the right side of the DNA double strand and can be 0, 1, 2, 3, 4, 5, 6, 7, 8 and 9.

When the stereo chromosome model at the upper end of the stereo chromosome model display disc is in a static state, the model is vertical to the horizontal direction, the stereo chromosome model display disc can freely swing and rotate along the center of a circle, and each pair of stereo chromosome models can be displayed in different colors.

Wherein: the corresponding model at 0 adopts a DNA chain in the vertical and horizontal direction, the DNA chain can freely rotate around the center of a circle, and the digital clock and the chromosome model are synchronously displayed.

Wherein: in S102, the small and medium balls rotate around the outer diameter for one circle every minute.

Wherein: in S103, the double DNA strands are displayed in different gradually-changed colors along with the change of time, the double DNA strands rotate anticlockwise, and are displayed in a dynamic and color-changing mode, so that the double DNA strands are more vivid and the impression on the double DNA strands can be enhanced.

The color screen time display method combining the digital clock and the normal human chromosome model has matching with the normal human chromosome model according to 24-hour time nodes such as 0 hour, 01 hour, 02 hour, 03 hour, 22 hour, 23 hour and the like in daily life, and can be combined to display clock time as shown in the following table:

as can be seen from the above table, 0 in the case of numeric values does not correspond to the chromosome model number, the model corresponding to 0 employs the DNA strand in the vertical and horizontal direction, the chromosome model 01 in the latter case corresponds to the chromosome model number 02, and the like, 21 corresponds to the

chromosome model number

21, 22 corresponds to the chromosome model number 22, 23 corresponds to the chromosome model number 23, it can be seen that each of the chromosome models has a corresponding chromosome model, and the model corresponding to 0 employs the DNA strand in the vertical and horizontal direction, so that one chromosome model can be displayed in each time slot, and the knowledge of normal human chromosomes in biology can be learned by long-term observation.

In conclusion, the color screen time display method combining the digital clock and the normal human chromosome model provided by the invention can display time and the number of the corresponding chromosome, and the corresponding chromosome model can be seen every time, so that the aim of learning the biological normal human chromosome knowledge can be fulfilled.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The color screen time display method combining the digital clock and the normal human chromosome model is characterized by comprising the following steps:

s101: respectively making corresponding three-dimensional chromosome models according to the form of 23 pairs of chromosomes of a human body and the size ratio, numbering 22 pairs of autosomes in the three-dimensional chromosome model from large to small according to the numbering mode of the autosomes in a universal description system-Denver system consisting of intracellular chromosomes in the world, wherein the autosomes are numbered as No. 01, No. 02, No. 03 … … 21 and No. 22 in the size sequence, and sex chromosomes are XY/XX chromosomes and No. 23; the life time is 0 hour, 01 hour, 02 hour, 03 hour … … 22 hour and 23 hour, and the total time is 24 hours, wherein, the number 01 corresponds to the number 01, the number 02 corresponds to the number 02, the number 03 corresponds to the number 03, and so on, and the number 23 corresponds to the number 23;

s102: dividing 0 hour, 01 hour, 02 hour, 03 hour … … 22 hour, 23 hour and the like into 24 hours, dividing 12-0 hour into two time periods of morning and afternoon by 0 hour-12 hour, and marking nodes of each time period on a dial plate, wherein the outer diameter tracks of the dial plate are uniformly distributed on the outer diameter tracks of the dial plate, and a small round ball is arranged on the outer diameter tracks of the dial plate to rotate clockwise;

2. The method for displaying color screen time of a digital clock in combination with a normal human chromosome model according to claim 1, wherein: in S103, when the three-dimensional chromosome model at the upper end of the three-dimensional chromosome model display disc is in a static state, the model is vertical to the horizontal direction, the three-dimensional chromosome model display disc can freely swing and rotate along the center of the circle, and each pair of three-dimensional chromosome models can be displayed in different colors.

3. The method for displaying color screen time of a digital clock in combination with a normal human chromosome model according to claim 1, wherein: the model corresponding to the 0 time in the S101 adopts a DNA chain in the vertical and horizontal direction, the DNA chain can freely rotate around the center of a circle, and the digital clock and the chromosome model are synchronously displayed.

4. The method for displaying color screen time of a digital clock in combination with a normal human chromosome model according to claim 1, wherein: in the step S102, the small and round balls rotate around the outer diameter for one circle every minute.

5. The method for displaying color screen time of a digital clock in combination with a normal human chromosome model according to claim 1, wherein: and in the S103, the DNA double strand is displayed by different gradient colors along with the change of time, and the DNA double strand rotates anticlockwise.