CN216084089U - Clock with demonstration ground-day relative position relation and correlation function - Google Patents

Abstract

The utility model relates to a clock with the functions of demonstrating the relative position relation between the earth and the sun and the relative functions, which is characterized by mainly comprising an annular clock dial, a globe, a ecliptic disk, a sun pointer, a driving device and the like, wherein the ecliptic disk comprises a constellation graduated ring, a solar term graduated ring, an ecliptic graduated ring and a date ring. The clock dial, the globe and the sun pointer are driven by the driving device respectively, the time of one circle of operation is respectively 24 hours, 23 hours, 56 minutes, 4 seconds and 365.2422 days, the zone, the real sun time, the constellation, the solar term, the solar longitude and the date corresponding to the sun pointer can be read in real time through the dynamic changes of the three, the position change of the sun projected on the earth surface direct point and the celestial sphere and the time, day and night, four seasons, the solar term and starry sky change brought by the position change can be accurately demonstrated, and people can understand the relation between the time and the earth rotation and revolution and the relation between the east-west traditional culture and the astronomical culture.

Description

Clock with demonstration ground-day relative position relation and correlation function

Technical Field

The utility model relates to the technical field of teaching demonstration appliances and artware, in particular to a clock for demonstrating time in real time through the relative position relationship between the earth and the sun.

Background

The time used by us in the daily life is the time of the coordinated world and the zones determined on this basis, the division of this time being closely related to the natural visual movement, in particular the solar visual movement. Many people have a wrong time knowledge, and it is considered that 24 hours a day is because the earth rotates one turn for 24 hours, which is not accurate in practice. One day means one day and night, that is, the sun is moved once every day, that is, the sun's direct point is moved 24 hours once on the earth's surface, and the time for one rotation of the earth is 23 hours, 56 minutes and 4 seconds. The solar apparent motion is related to the revolution of the earth in addition to the rotation of the earth, and therefore, the solar apparent motion can be decomposed into solar sunday apparent motion and solar anniversary apparent motion. The globe rotates at a constant speed to express earth rotation and sun sunday vision movement, the earth revolution and sun anniversary vision movement can be expressed by simulating non-constant speed movement of the sun on a ecliptic, and the relationship between time and earth rotation revolution and the relationship between date and four seasons, solar terms and constellations brought by earth revolution can be clearly demonstrated by combining the clock and the earth rotation revolution.

There are a few foreign timepieces that represent time by means of a globe and a simulated sun, such as the smitney astronomical clock in the united states, the helmholr starry clock in germany, etc., but these timepieces are too complex to accurately represent the direct point of the sun. At present, some patent documents relate to relevant contents, but either the relation between the earth rotation and the time or the earth revolution is expressed independently, and a clock which expresses the time, the earth rotation and the revolution together is not provided.

Disclosure of Invention

In view of the above, the present invention provides a clock with a function of demonstrating the relative position relationship between the earth and the sun and the related functions, which enables a user to understand the change of the sun's direct point on the earth's surface caused by the rotation and revolution of the earth and the change of the position of the sun on the ecliptic, and understand the corresponding relationship between the date and the constellation and the solar term and the reasons for the change of the season and the length of day and night.

In order to solve the problems, the technical scheme adopted by the utility model is as follows:

the clock with the relative position relation of demonstration ground and day and the related function is characterized by comprising a base and a clock body, wherein the clock body is installed on the basis of the base:

an annular dial plate, the rotation of which is controlled by a dial plate driving component;

the globe is rotatably arranged above the annular dial plate through a globe pillar, and the globe pillar provides rotating torque through a globe driving assembly;

the eclipta disk is erected on the periphery of the globe through an eclipta disk support and comprises a constellation scale ring, a solar term scale ring, an eclipta scale ring, a date ring and a sun pointer.

The dial driving assembly comprises a clock dial driving motor, a reduction gear in output connection with the clock dial driving motor, and a clock ring gear fixed on the inner periphery of the annular dial, wherein the reduction gear is in meshing transmission with the clock ring gear.

And a clock disc magnetic encoder used for calibrating the rotation angle of the annular clock disc is arranged on the lower side of the clock disc driving motor.

The globe pillar penetrates into the interior of the globe from bottom to top, and a region time indicator capable of rotating along the top point of the globe is arranged at the top point of the globe.

The globe driving assembly comprises a globe driving motor, and a motor shaft of the globe driving motor is in output connection with a globe support.

A globe magnetic encoder used for calibrating the globe angle is installed below the globe driving motor.

The eclipta plate strut is of a hollow tubular structure, the lower end of the eclipta plate strut is fixed on the base, and the upper end of the eclipta plate strut is connected to the eclipta plate; the ecliptic disk is of a ring-type hollow disk-shaped structure, the inclination angle of the ecliptic disk and the plane of the base is 23 degrees 27', and the circle center of the ecliptic disk coincides with the sphere center of the globe.

The improved solar meter box is characterized in that a sun pointer which rotates anticlockwise along the ecliptic disk is installed on the ecliptic disk, a driving assembly of the sun pointer comprises a sun pointer driving motor, the sun pointer driving motor is connected with the lower end of a transmission rod in a hollow tube cavity of an ecliptic disk support in a driving mode through a worm gear reducer, the upper end of the transmission rod is meshed with a sun pointer ring gear located inside the ecliptic disk through a gear, and the sun pointer ring gear is provided with the sun pointer.

And a sun pointer magnetic encoder for calibrating the angle of the sun pointer is also arranged at the lower part of the sun pointer driving motor.

The base is a cavity structure or a base with an accommodating space is arranged at the upper part of the base, and the cavity structure or the base with the accommodating space of the base is used for accommodating each driving motor and related transmission parts.

The clock with the functions of demonstrating the relative position relation between the earth and the sun and the related functions has scientific and reasonable structural design and comprehensive and diverse functions, can uniformly express the position relation among time, earth rotation and revolution and the related functions, is convenient to understand the change of a sun direct point on the earth surface caused by the earth rotation and revolution and the position change of the sun on the ecliptic, understand the corresponding relation among date, constellation and solar terms and the reasons of seasonal change and day and night length change, and has better teaching demonstration function and artistic appreciation value.

Drawings

FIG. 1: the overall external structure schematic diagram of the clock of the first embodiment;

FIG. 2: the internal structure diagram of the clock of the first embodiment;

FIG. 3: FIG. 1 is a schematic view of the structure of the ecliptic disc;

FIG. 4: the sun pointer and the ring gear driving device are structurally schematic;

FIG. 5: the structure schematic diagram of the globe and the clock dial driving device;

FIG. 6: time zone reference meridian and solar term schematic diagram;

FIG. 7: the structure schematic diagram of the zone time indicator;

FIG. 8: schematic diagram of each area and scale of the ecliptic disk;

FIG. 9 is a time difference distribution diagram corresponding to different dates in 2021;

in the figure, 1, a base, 2, a base, 3, a driving motor, 3-1, a clock dial driving motor, 3-2, a globe driving motor, 3-3, a sun pointer driving motor, 4, an annular clock dial, 5, a clock ring gear, 6, a globe support post, 7, a globe, 8, a zone time indicator, 9, a ecliptic dial, 9-1 a star race, 9-2, a solar ring, 9-3, an ecliptic scale ring, 9-4, a date ring, 10, an ecliptic support post, 11, a sun pointer, 12, a sun pointer ring gear, 13, a transmission rod, 14, a magnetic encoder, 14-1 a clock dial magnetic encoder, 14-2 a globe magnetic encoder, 14-3 a sun pointer magnetic encoder, 15, a worm gear reducer.

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, 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.

Example one

A clock with relative position relation and relevant function of demonstration ground day, its structure mainly includes base 1, base 2, annular clock dial 4, globe 7, the lane disk 9, wherein:

the base 2 is fixed on the base 1 and has a cylindrical cavity structure with an accommodating space inside, and the accommodating space is used for installing some matching components for demonstrating relevant functions of the annular dial 4, the globe 7 and the ecliptic 9.

The annular clock dial 4 is rotatably arranged at the middle position of the upper surface of the base 2 and is driven by a clock dial driving motor 3-1 arranged in the cavity of the base, the output of the clock dial driving motor 3-1 is connected with a reduction gear, the inner periphery of the annular clock dial 4 is fixedly connected with a clock ring gear 5, the reduction gear is in meshing transmission with the clock ring gear 5, the clock dial driving motor 3-1 drives the annular clock dial 4 to rotate in a counter-clock manner at a constant speed for 24 hours, namely 24 hours. And a clock disk magnetic encoder 14-1 for calibrating the rotation angle of the annular clock disk is arranged at the lower side of the clock disk driving motor 3-1.

The globe 7 is supported and mounted above the annular dial 4 through a globe support 6, the globe support 6 penetrates into the globe 7 from bottom to top to achieve rotation of the globe, a globe driving motor 3-2 is mounted on the lower portion of the globe support 6, the globe driving motor 3-2 is mounted in a containing space of the base 2, a motor shaft of the globe driving motor is upwards output and connected to the bottom end of the globe support 6, the globe support 6 penetrates upwards and is connected to the top end of the globe 7, and the bottom end and the top end are respectively the positions of the two poles. The rotation speed of the globe driving motor 3-2 is a circle of constant speed rotation every 23 hours, 56 minutes and 4 seconds. The region time indicator 8 is arranged at the vertex of the globe 7, the region time indicator 8 can rotate along the vertex of the globe, and the region time indicator 8 is marked with 01-24 clockwise as shown in figure 7. A globe magnetic encoder 14-2 for calibrating the angle of the globe 7 is installed below the globe driving motor 3-2.

The globe 7 of the present embodiment has a throttle line, a time zone reference line, and the like on its surface in addition to a conventional map, as shown in fig. 6. The solar terms are straight lines corresponding to the solar terms, and the latitude of the solar term is shown in table 1. The time zone reference line is formed by drawing a longitude line at an interval of 15 degrees from a zero-degree longitude line, the longitude line is the reference longitude line of each time zone, and the longitude and the time integral value of each longitude line are respectively marked on two sides of the equator. For example, the user in the east eight region is labeled 12 at the east longitude 120 °, 13 at the east longitude 135 °, and so on to 24 in the west, 11 at the east longitude 105 °, and so on to 1 in the east.

TABLE 1 Sun yellow and declination values corresponding to twenty-four solar terms

The eclipta 9 is erected on the periphery of the globe 7 through a plurality of eclipta struts 10, the eclipta struts 10 are of hollow tubular structures, the lower ends of the eclipta struts are fixed on the base 1, and the upper ends of the eclipta struts are connected to the eclipta 9. The ecliptic disk 9 is of a ring-type hollow disc-shaped structure, the inclination angle of the ecliptic disk 9 and the plane of the base 1 is 23 degrees 27', and the circle center of the ecliptic disk 9 coincides with the sphere center of the globe 7.

The ecliptic disk 9 comprises a constellation graduated ring 9-1, a solar term graduated ring 9-2, an ecliptic graduated ring 9-3 and a date ring 9-4, and the corresponding relation of the graduations is shown in figure 8. The scale of the ecliptic scale ring 9-3 is anticlockwise 0-360 degrees, the constellation scale ring 9-1 is arranged anticlockwise, the corresponding relation between the region and the ecliptic is calculated according to 1 month and 1 day zero in 2021, the ecliptic scale ring 9-2 is arranged anticlockwise, and the corresponding relation between the region and the ecliptic is shown in table 2.

TABLE 2 corresponding Huangjing range (°) of twelve constellation

The date ring 9-4 is mounted on one side of the ecliptic scale ring 9-3 through a sliding rail and can rotate along the ecliptic scale ring 9-3, the scales of the date ring 9-4 are non-uniformly distributed, the width of the ecliptic scale is related to the date, the change value is 57.19 ' -61.18 ', the change value of the ecliptic scale is shown in table 3, the ecliptic scale is set for 28.2422 days, and a 14.6 ' gap is reserved behind the scales of 28 days and 24 days in 2 months.

TABLE 3 daily Sun-Huangjing change value table (')

The solar pointer 11 which rotates anticlockwise along the yellow road disc is mounted on the yellow road disc 9, and the rotation of the solar pointer 11 is realized by the following driving structure: a sun pointer driving motor 3-3 is installed in the accommodating space of the base 2, the sun pointer driving motor 3-3 is in driving connection with the lower end of a transmission rod 13 arranged in a hollow pipe cavity of the ecliptic disk support 10 through a worm gear reducer 15, the upper end of the transmission rod 13 is meshed with a sun pointer ring gear 12 located inside the ecliptic disk 9 through a gear, and a sun pointer 11 is installed on the sun pointer ring gear 12, so that the sun pointer 11 rotates on the ecliptic disk 9 at 365.2422 days for one circle. A sun pointer magnetic encoder 14-3 for calibrating the angle of the sun pointer 11 is also installed at the lower part of the sun pointer driving motor 3-3.

The clock with the function of demonstrating the relative position relationship between the ground and the day and the related functions of the embodiment is introduced as follows:

1. date ring adjusting method.

Since the annual movement of the sun is 365.2422 days in one week and is a non-integer value, leap years need to be set in the calendar. The leap year results in that the time corresponding to each solar term changes, the date ring is set to be an adjustable structure, the date ring is adjusted once every year, each solar term within the next year is adjusted to accurately correspond to the date disc, and the date corresponding to each solar term can be accurately read.

The adjusting method comprises the following steps: and inquiring the spring minute time of the current year, and rotating the date ring 9-4 at 3 months and 1 day or later every year to enable the 0 scale mark of the ecliptic scale ring 9-3 to be at the position of the spring minute time of the contra-rotating date disc.

2. The method of reading time by the sun pointer.

The method of reading time by the sun pointer. The apparent movement of the sun for one cycle is 24 hours, and the longitude corresponding to the direct point of the sun on the earth's surface changes by about 1 ° for about 4 minutes and by about 15 ° for about 1 hour. The sun pointer simulates a direct point of the earth surface corresponding to the true sun, so that when the longitude of the sun pointer on the surface of the globe is read, namely the true sun of the reference meridian in the used time zone can be read, the time difference of the day is subtracted from the true sun time corresponding to the reference meridian to obtain the time zone. For example, suppose the user is located in the eighty zone, the date is 2021 year 8 month 1 day, and the longitude corresponding to the sun pointer is 153 degrees, as shown in fig. 6. The time used by the user is Beijing time, the reference meridian corresponding to the time zone is east longitude 120 degrees, and when the longitude of the sun pointer is east longitude 120 degrees, the true sun time at east longitude 120 degrees is 12: 00, when the direct sun point is located at 153 degrees of east longitude, the true sun corresponding to the reference meridian is 09: 48. As can be seen from table look-up 4 or fig. 9, the time difference corresponding to 8 months and 1 days is about-6.4 minutes, so the time zone at this time, i.e., the beijing time is 09: 54. table 4 shows the time difference value of 2021, and the actual time difference may be data within 2 days before and after the actual time difference due to the difference between the gregorian year and the regressive year, and the difference between the leap year and the average year, and the error is negligible.

Time difference corresponding to different dates of 42021 years

3. Zone time indicator usage method.

When the time zone of different time zone is used, the zone time indicator is rotated to make 12 scales be aligned with the reference meridian of said time zone, the scale on the zone time indicator is used to replace the integral point value of equator of globe, then the zone time of said time zone can be read according to method 2. For example, when the user wants to read new york time, the section indicator 12 is aligned with the west five section reference meridian, i.e., the west 75 ° meridian, as shown in fig. 6. When the direct sun point is 153 ° from east longitude, the true sun corresponding to the reference meridian is 20:48 at 7/31/2021, and the new york time obtained by subtracting the time difference is 20 at 7/31/2021: 56.

the clock with the function of demonstrating the relative position relation between the earth and the sun and the related functions has the advantages of scientific and compact structure, various and comprehensive functions, and capability of enabling a user to know the change of a direct sun point on the earth surface caused by the rotation and revolution of the earth and the position change of the sun on the ecliptic and understand the corresponding relation between the date and the constellation and the solar term and the reasons of seasonal change and day and night length change.

In summary, although the present invention has been described with reference to the preferred embodiments, it should be understood that various changes and modifications can be made by those skilled in the art without departing from the spirit and scope of the utility model.

Claims (10)

1. A clock with the relative position relation of demonstration ground day and relevant function, characterized by that, include the base, and based on that the base is installed:

an annular dial plate, the rotation of which is controlled by a dial plate driving component;

the globe is rotatably arranged above the annular dial plate through a globe pillar, and the globe pillar provides rotating torque through a globe driving assembly;

the eclipta disk is erected on the periphery of the globe through an eclipta disk support and comprises a constellation scale ring, a solar term scale ring, an eclipta scale ring, a date ring and a sun pointer.

2. The clock with demonstration of relative position of earth and day and related functions as claimed in claim 1,

the dial driving assembly comprises a clock dial driving motor, a reduction gear in output connection with the clock dial driving motor, and a clock ring gear fixed on the inner periphery of the annular dial, wherein the reduction gear is in meshing transmission with the clock ring gear.

3. The clock having a relative location relationship and related functions of demonstration ground and day as claimed in claim 2,

and a clock disc magnetic encoder used for calibrating the rotation angle of the annular clock disc is arranged on the lower side of the clock disc driving motor.

4. The clock with demonstration of relative position of earth and day and related functions as claimed in claim 1,

the globe pillar penetrates into the interior of the globe from bottom to top, and a region time indicator capable of rotating along the top point of the globe is arranged at the top point of the globe.

5. The clock with demonstration of relative position of earth and day and related functions as claimed in claim 4,

the globe driving assembly comprises a globe driving motor, and a motor shaft of the globe driving motor is in output connection with a globe support.

6. The clock with demonstration of relative position of earth and day and related functions as claimed in claim 5,

a globe magnetic encoder used for calibrating the globe angle is installed below the globe driving motor.

7. The clock with demonstration of relative position of earth and day and related functions as claimed in claim 1,

the eclipta plate strut is of a hollow tubular structure, the lower end of the eclipta plate strut is fixed on the base, and the upper end of the eclipta plate strut is connected to the eclipta plate; the ecliptic disk is of a ring-type hollow disk-shaped structure, the inclination angle of the ecliptic disk and the plane of the base is 23 degrees 27', and the circle center of the ecliptic disk coincides with the sphere center of the globe.

8. The clock having a relative location of demonstration ground and day and related functions as claimed in claim 7,

the improved solar meter box is characterized in that a sun pointer which rotates anticlockwise along the ecliptic disk is installed on the ecliptic disk, a driving assembly of the sun pointer comprises a sun pointer driving motor, the sun pointer driving motor is connected with the lower end of a transmission rod in a hollow tube cavity of an ecliptic disk support in a driving mode through a worm gear reducer, the upper end of the transmission rod is meshed with a sun pointer ring gear located inside the ecliptic disk through a gear, and the sun pointer ring gear is provided with the sun pointer.

9. The clock having a relative location of demonstration ground and day and related functions as claimed in claim 8,

and a sun pointer magnetic encoder for calibrating the angle of the sun pointer is also arranged at the lower part of the sun pointer driving motor.

10. The clock with demonstration of relative position of earth and day and related functions as claimed in claim 1,

the base is a cavity structure or a base with an accommodating space is arranged at the upper part of the base, and the cavity structure or the base with the accommodating space of the base is used for accommodating each driving motor and related transmission parts.

Images