CN213920388U - Non-electronic calendar display assembly, calendar pen container, clock and toy car ornament - Google Patents

Abstract

The application provides a non-electron hundred-year calendar show subassembly and hundred-year calendar pen container, clock and toy car goods of furniture for display rather than for use, and non-electron hundred-year calendar show subassembly includes: the first display structure is used for displaying the year number and corresponding first prompt information; the first adjusting structure is connected with the first display structure and used for adjusting the year number to be displayed by the first display structure and the first prompt information corresponding to the year number; the second display structure is used for displaying the month number and corresponding second prompt information, wherein the first prompt information and the second prompt information are used for revealing the week number corresponding to the target date when the year and the month are determined; the second adjusting structure is connected with the second display structure and used for adjusting the month number to be displayed by the second display structure and second prompt information corresponding to the month number; the third display structure is used for displaying the week number and the date number which correspond to each other; and the third adjusting structure is connected with the third display structure and is used for adjusting the week number and the date number which are mutually corresponding to each other when the third display structure is used for displaying the determined year and month.

Description

Non-electronic calendar display assembly, calendar pen container, clock and toy car ornament

Technical Field

The application relates to the field of articles for daily use, in particular to a non-electronic calendar display assembly, a calendar pen container, a clock and a toy car ornament.

Background

The calendar is an indispensable article in life, and in the existing common calendar (such as a desk calendar), on one hand, the calendar is convenient for people to check, and on the other hand, the calendar can also be used as an ornament. However, the existing calendar is usually used for only one year, and is not used for many years like the hundred year calendar. On one hand, the calendar is high in cost, overdue every year, and replaced every year, so that the calendar is inconvenient, economical and environment-friendly; calendars related to electronic devices not only depend on the use and operation of people on the electronic devices, but also significantly increase the cost of the calendar products.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of the application is to provide a non-electronic calendar display assembly, a calendar pen container, a clock and a toy car ornament, and provide a non-electronic calendar product in a low-cost and environment-friendly manner.

In order to achieve the above object, embodiments of the present application are implemented as follows:

in order to achieve the above object, embodiments of the present application are implemented as follows:

in a first aspect, an embodiment of the present application provides a non-electronic calendar display assembly, including: the first display structure is used for displaying the year numbers and corresponding first prompt information, wherein each year number corresponds to one first prompt information; the first adjusting structure is connected with the first display structure and used for adjusting the year number to be displayed by the first display structure and first prompt information corresponding to the year number based on the operation of a user; the second display structure is used for displaying month numbers and corresponding second prompt information, wherein each month number corresponds to one second prompt information, and the first prompt information and the second prompt information are used for revealing week numbers corresponding to target dates of determined year and month; the second adjusting structure is connected with the second display structure and used for adjusting the month number to be displayed by the second display structure and second prompt information corresponding to the month number based on the operation of a user; the third display structure is used for displaying the week number and the date number which correspond to each other; and the third adjusting structure is connected with the third display structure and used for adjusting the week number and the date number which are mutually corresponding to each other when the determined year and month is displayed by the third display structure based on the operation of a user.

In the embodiment of the application, the year numbers and the corresponding first prompting messages (each year number corresponds to one first prompting message) can be displayed through the first display structure, the year number to be displayed by the first display structure and the first prompt information corresponding to the year number can be adjusted through the first adjusting structure, the month numbers and the corresponding second prompt messages (one second prompt message for each month) can be displayed through the second display structure, the first prompt message and the second prompt message are used for revealing a week number corresponding to a target date (for example, 1 day) when the year and month are determined (for example, 5 months in 2019) (the 1 day in 5 months in 2019 corresponds to 3 weeks), thus, the user can adjust the week number and the date number corresponding to each other at a specific month of the year to be displayed by the third display structure (i.e., adjust week 3 to correspond to week 1 as the calendar of the month of the year) by operating the third adjustment structure. The century calendar product obtained in such a way does not need to use an electronic device, can greatly save the cost and is more environment-friendly; on the other hand, the adjustable non-electronic hundred-year-calendar product can be obtained through few resources, and the user can accurately display the specific date of the month (namely, the number of the day corresponds to the day of the week) only by adjusting once every month.

With reference to the first aspect, in a first possible implementation manner of the first aspect, the third display structure includes: the week number display structure is used for displaying week numbers, wherein the week numbers are one of week numbers in a plurality of preset sequences; a date number display structure for displaying a date number corresponding to the year number displayed by the first display structure and the month number displayed by the second display structure; correspondingly, the third adjusting structure comprises a week number adjusting structure, is connected with the week number display structure and is used for adjusting the week number to be displayed by the week number display structure based on the operation of a user.

In this implementation, the week number display structure displays the week number, and the date number display structure displays the date number corresponding to the year number displayed by the first display structure and the month number displayed by the second display structure, and the week number adjustment structure can adjust the week number to be displayed by the week number display structure based on the operation of the user, so that the correspondence between the week number and the date number under the determined year and month can be simply realized by adjusting the week number. The method can simplify the corresponding adjustment process of the week number and the day number, is convenient for a user to quickly and accurately adjust, and can realize the correspondence of the week number and the day number by adjusting a small part of the content (the week number comprises seven contents from Monday to Sunday, and the day number comprises 28 to 31 contents), thereby being convenient for designing and simplifying the structure and saving resources.

With reference to the first possible implementation manner of the first aspect, the third adjusting structure further includes: and the date number adjusting structure is connected with the date number display structure and is used for adjusting the date of the determined year and month to be displayed by the date number display structure based on the operation of a user.

In this implementation, since the days 29 to 31 in the date number may be partially present, entirely present, or absent depending on the month or month of year, the date of the month at the time of the certain month of year to be presented by the date number presenting structure (i.e., whether 29 days, 30 days, 31 days, etc. need to be presented or not) can be adjusted based on the operation of the user by the date number adjusting structure, whereby the number of dates can be adjusted in a simple manner to suit the reality.

With reference to the first aspect, or with reference to the first or second possible implementation manner of the first aspect, the first display structure includes a first display board and a first window, the first display board is provided with a plurality of years and first prompt information corresponding to each year, and the first adjustment structure includes: a first adjustment gear for providing an operating condition to a user to rotate under an operation of the user; the first transmission piece is respectively connected with the first adjusting gear and the first display board; the rotation of the first adjusting gear is transmitted to the first display board through the first transmission piece so as to change the position of the first display board corresponding to the first window, and therefore the year displayed to a user through the first window and the first prompt information corresponding to the year are changed.

In this implementation, the first adjustment structure includes a first adjustment gear for providing an operating condition for a user to rotate under operation of the user; and the first transmission piece is respectively connected with the first adjusting gear and the first display board of the first display structure so as to transmit the rotation of the first adjusting gear to the first display board through the first transmission piece, and the position of the first display board corresponding to the first window is changed, so that the year displayed for the user through the first window and the first prompt information corresponding to the year are changed. By using the structure as the first adjusting structure, the adjustment of the information (year and corresponding first prompt information) to be displayed by the first display structure can be simply and accurately realized.

In a second aspect, an embodiment of the present application provides a century calendar pen container, including: a barrel wall and a barrel base, and the non-electronic lifetime calendar display assembly of any one of the first aspect or possible implementations of the first aspect; the pen container wall is arranged on the pen container base, and the accommodating space formed by the pen container wall and the pen container base is used for accommodating stationery; the pen barrel wall is of a hollow structure, and the non-electronic hundred-year calendar display component is partially or completely arranged in the hollow structure so as to display the year number and the corresponding first prompt information, the month number and the corresponding second prompt information, and the date number and the week number which correspond to each other through a display window arranged on the pen barrel wall.

In the embodiment of the application, the non-electronic perpetual calendar is combined with the pen container, so that on one hand, the non-electronic perpetual calendar has higher practicability and lower cost for student groups, and on the other hand, the non-electronic perpetual calendar is practical in function, longer in service life and very suitable, and the principle that the student groups think of the non-electronic perpetual calendar on the pen container is also facilitated.

In a third aspect, an embodiment of the present application provides a hundred-year calendar clock, including: a housing and a clock assembly, and the non-electronic lifetime calendar display assembly of any one of the first aspect or possible implementations of the first aspect; the casing is provided with a dial plate, a plurality of display parts and corresponding adjusting parts; the clock component and the non-electronic perpetual calendar display component are arranged inside the shell; the non-electronic calendar display assembly is arranged inside the shell, the display part is matched with a plurality of display years, first prompt information, month numbers, second prompt information, date numbers and week numbers, and the adjustment part is used for adjusting the conditions of the information displayed by the display part.

In the embodiment of the application, the non-electronic perpetual calendar is combined with the clock, so that on one hand, the function of the clock can be enriched, and the perpetual calendar and the clock have certain complementarity and matching performance, so that the function of the clock is stronger; on the other hand, the clock has long average service life, and the clock is matched with the functions of the non-electronic perpetual calendar, so that the clock is beneficial to making the best use of things.

In a fourth aspect, embodiments of the present application provide a century date toy vehicle ornament, including: a toy vehicle housing and toy vehicle wheels, and the non-electronic calendar display assembly of any one of the first aspect or possible implementations of the first aspect; a plurality of display parts are arranged on the surface of the toy car shell; the non-electronic perpetual calendar show subassembly sets up in the toy car casing, and with the toy wheel is connected, and the cooperation is a plurality of show portion show year number and the first prompt information, month number and the second prompt information that corresponds, the date number and the week number that correspond each other of corresponding, and, through the toy wheel provides the regulation for the user the condition of the information that show portion showed.

In the embodiment of the application, the non-electronic perpetual calendar is combined with the toy car ornament, so that the ornament with decoration function has better functional practicability, the article used for practical (such as a calendar) has better decoration function, the service life of the ornament is usually longer, and the ornament capable of displaying the perpetual calendar is guaranteed to be used as much as possible.

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments of the present application will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and that those skilled in the art can also obtain other related drawings based on the drawings without inventive efforts.

Fig. 1 is a schematic diagram of a non-electronic century calendar assembly provided in an embodiment of the present application.

Fig. 2 is a schematic view of a century calendar pen container provided in an embodiment of the present application.

Fig. 3 is a schematic diagram of a hundred-year calendar clock according to an embodiment of the present disclosure.

Fig. 4 is a schematic diagram of a one hundred year calendar clock provided in an embodiment of the present application before assembly.

Fig. 5 is a diagram of an assembled finished product of a century calendar clock according to an embodiment of the present application.

FIG. 6 is a schematic view of a century date toy vehicle ornament according to an embodiment of the present application.

FIG. 7 is a schematic illustration of an embodiment of the present application showing a centuries calendar toy vehicle ornament prior to assembly.

FIG. 8 is a diagram of an assembled display of a century date toy vehicle ornaments according to an embodiment of the present application.

Icon: 100-non-electronic perpetual calendar display components; 110-a first display structure; 120-a first adjustment structure; 130-a second display structure; 140-a second adjustment structure; 150-a third display structure; 151-week number display structure; 152-date number display structure; 160-a third adjustment structure; 161-week number adjustment structure; 162-date number adjustment structure; 200-hundred-year calendar pen containers; 210-a cartridge wall; 220-pen container base; 300-hundred years calendar clock; 310-a housing; 320-a clock component; 400-century calendar toy car ornament.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

In the description of the present application, it should be noted that the terms "inside", "outside", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the application usually place when using, and are only used for convenience in describing the present application and simplifying the description, but do not indicate or imply that the devices or elements that are referred to must have a specific orientation, be constructed in a specific orientation, and operate, and thus, should not be construed as limiting the present application. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

It should also be noted that, unless expressly stated or limited otherwise, the terms "disposed" and "connected" are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

The existing non-electronic calendars are basically uniform, most calendars can only be seen for one year and need to be changed every year, and the calendar is inconvenient and economical. In order to manufacture the calendar capable of using dozens of years or even hundreds of years in a simple, low-cost and environment-friendly mode, the inventor of the application finds that some fast and convenient methods can be found for month determination and date inquiry by utilizing the fixed or basically fixed periodicity of parameters such as the middle year, the month, the week and the like of the gregorian calendar, so that the deduction of the corresponding relation between the date numbers and the week numbers of different months and years can be realized by using less resources, the adjustment of the calendar can be realized by a simple adjusting structure, the calendar can be applied to different years (such as being applied to the last dozens of years, one hundred years and the like), and the non-electronic hundred calendar can be obtained by a low-cost and environment-friendly method.

Through long-term thinking and verification of the inventor, a simple simplified calendar deduction method with strong feasibility is obtained by utilizing the periodicity of the gregorian calendar to research: the 'representing sequence number addition method' can realize the hundred-year calendar. The basic principle is as follows: the average year in the gregorian calendar is fixed to 365 days, the leap year is fixed to 366 days, and the number of days per month in the gregorian calendar is also fixed except for the possible 28 or 29 days in 2 months. For example, taking 2019 as a reference year as an example, the week number of 1 month (of course, other dates may be used, and for convenience, 1 month is taken as an example here) in the reference year may be converted into a representative number a, the value of a is 0 to 6 (of course, the week number may be converted into other similar characters capable of achieving a number marking effect, such as sorted letters, etc., and is not limited here), the difference between the week number of the first day of each year and the week number of the first day of 2019 (the reference year) is converted into a representative number B, and the value of B is 0 to 6. Then, by utilizing the result (the result value is 0-13) of A + B (3-12 months in the next year) or A + B +1 (3-12 months in leap year), the calendar form (namely the corresponding form between the date number and the week number in the calendar of the month) corresponding to a month in a certain year can be simply and accurately determined, and the realization of the non-electronic calendar for years and even centuries is facilitated.

For example, with 2019 as the reference year, the week number of 1 day per month in the reference year may be converted into the representative number a (0 to 6), for example, the representative number a in 2030 is "0", the representative number a in 2053 is "1", and correspondence information between the year in 2019 as the reference year and the corresponding representative number a is shown in table 1. In Table 1, it is represented in the form "XX-Y", wherein "XX" represents the year mantissa, the former "20" is omitted, i.e., "2010" is represented by "10"; and "Y" represents a value representing the number "a".

TABLE 1

For another example, with 2019 as a reference year, the week number difference between the first day of each year and the first day of the reference year is converted into a representative number B, and the value of B is 0-6. For example, the representative number B of month 5 is "3", the representative number B of month 3 is "5", and the representative number B of month 7 is "1". The correspondence information between the year of the year 2019 and the corresponding representative number B is shown in table 2.

TABLE 2

Wherein, the representative number B of 3-12 months is underlined, which indicates that 3-12 months are influenced by 2 months; when the year is leap year, the corresponding representative number a is underlined. Therefore, when both the representative number a and the representative number B are underlined, the result is calculated using a + B +1, and the result is associated with the week number. For example, 5 months (B ═ 3) in 2030 (a ═ 0), and a + B +1 ═ 0+3+1 ═ 4, then 5 months and 1 days in 2030 correspond to thursdays; for another example, if year 2074 (a ═ 6)3 months (B ═ 5) and a + B ═ 11, then day 3, month 1 of year 2074 would correspond to thursday. Wherein, the corresponding relation between the result value obtained based on the representative digit A and the representative digit B and the week number is as follows: 0-6 for Sunday to Saturday, and 7-13 for Sunday to Saturday.

Referring to fig. 1, fig. 1 is a schematic view of a non-electronic calendar display assembly 100 according to an embodiment of the present disclosure. The non-electronic calendar display assembly 100 may be an assembly constituting a certain product, or may be manufactured as an independent product, which is not limited herein. In the present embodiment, the non-electronic century calendar display assembly 100 may include a first display structure 110, a first adjusting structure 120, a second display structure 130, a second adjusting structure 140, a third display structure 150 and a third adjusting structure 160, wherein the first display structure 110 and the first adjusting structure 120 are provided.

For example, the first display structure 110 may include a first display board and a first window. The first display board may be understood as a component bearing different year numbers (for example, the year numbers are 2000 to 2099 years) and first prompt information corresponding to the year numbers (that is, the representative number a obtained by converting the week number of 1 day per month in the reference year, and each year number corresponds to one first prompt information), for example, the first display board may be a rotating wheel, the rotating wheel (the wheel face or the wheel disc side face of the rotating wheel) is divided into a plurality of regions, and each region is imprinted with one year number and the first prompt information corresponding to the year number. The first window can be understood as a viewing window, and information (year number and corresponding first prompt information) borne by the first display board can be displayed to a user through the viewing window, so that the first display structure 110 can display the year number and the corresponding first prompt information.

For example, the first adjustment structure 120 may be connected to the first display structure 110, so as to adjust the information to be displayed by the first display structure 110 (i.e. the year and the first prompt information corresponding to the year) based on the operation of the user.

For example, the first adjustment structure 120 may include a first adjustment gear and a first transmission member. The first adjustment gear may be used to provide an operating condition for a user (e.g., the first adjustment gear provides a knob for user operation, which is turned based on user operation of the knob) to rotate under user operation. And the first adjusting gear is connected with the first transmission piece so as to drive the first transmission piece to move. The first transmission piece can also be connected with the first display board, so that the rotation of the first adjusting gear is transmitted to the first display board through the first transmission piece, the position of the first display board corresponding to the first window is changed, and the year displayed for a user through the first window and the first prompt information corresponding to the year are changed.

By using such a structure as the first adjusting structure 120, the adjustment of the information (year and corresponding first prompt information) to be displayed by the first display structure 110 can be simply and accurately realized.

Of course, in other realizable manners, the first adjusting structure 120 may not include the first transmission member, but connect the first adjusting gear with the first display board to drive the first display board to rotate; or the first transmission piece can convert the rotation into displacement to drive the first display board to move, so that the position of the first display board corresponding to the first window is changed; or, the first adjusting gear and the first display board are integrated, and the position of the first display board corresponding to the first window is changed by directly adjusting the first display board, which is not limited herein.

In addition, the specific structure of the first adjustment structure 120 may also adopt other structural forms, such as the cooperation of a rotating wheel and a conveyor belt, to realize the transmission of motion, so as to drive the movement of the first display board and adjust the information displayed by the first display structure 110. Therefore, the specific structural form of the first adjusting structure 120 can be selected according to actual needs, and should not be considered as a limitation of the present application.

Illustratively, similar to the first display structure 110, the second display structure 130 may be used to display a month number (i.e., the number of any month of 1-12 months) and corresponding second prompting information (i.e., the representative number B converted from the difference between the week number of the first day of each year and the week number of the first day of the reference year, each month number corresponding to one second prompting information). Therefore, similar to the first display structure 110, the second display structure 130 may also include a second display board and a second window, and the details of the second display board and the second window can be found in the description of the first display board and the first window, and only the second display board and the second window may be different from the first display board and the first window.

Due to the fact that the first prompt information (representing the number A) and the second prompt information (representing the number B) are used, the corresponding monthly calendar form (namely the corresponding form between the date number and the week number in the calendar of the month) can be determined by utilizing the result (value is 0-13) of A + B (3-12 months in the next year) or A + B +1 (3-12 months in leap years), and the non-electronic calendar can be further facilitated. The leap year and the next year can be distinguished by marks, for example, distinguishing marks (such as underline, dot, circle, and the like) are added on the first prompt information or the year number of the next year to distinguish the leap year from the leap year; alternatively, the leap year first presentation information or year number is marked with a distinguishing mark (such as a dash line, a dot, a circle, or the like) to distinguish it from the next year.

For example, for the month calendar form of 5 months 2030, a year number "2030" corresponding to the first hint information (representing the number a) is "0" may be displayed through the first display structure 110, and a month number "5" may be displayed through the second display structure 130, and a second hint information (representing the number B) corresponding to the month number is "3", then for 2030 of the next year, the week number corresponding to 1 in 5 months 2030 may be determined in a + B manner: a + B is 0+3 is 3, then 5/1/2030 corresponds to wednesday. In the present embodiment, "0" and "7" correspond to sunday, "1" and "8" correspond to monday, "2" and "9" correspond to tuesday, "3" and "10" correspond to wednesday, "4" and "11" correspond to thursday, "5" and "12" correspond to friday, "6" and "13" correspond to saturday, but should not be construed as limiting the present application.

In this embodiment, different from the first display structure 110, the information to be displayed by the second display structure 130 is different: the second display structure 130 is used for displaying the month number and the corresponding second prompt message. Since the information such as the number length of the month, the total number of the month, and the like is different from the number length of the year, the total number of the year, the resources and the space occupied by the second display structure 130 and the first display structure 110 may be different (of course, the same), and thus, the specific structure and the volume of the second display structure 130 may be different, so that the actual requirement is the standard, and the specific structure and the volume are not limited herein.

The second adjusting structure 140 may be connected to the second display structure 130, so as to adjust the information (i.e., the month number and the second prompt information corresponding to the month number) to be displayed by the second display structure 130 based on the operation of the user.

To enable adjustment of the information to be displayed by the second display structure 130, similar to the first adjustment structure 120, the second adjustment structure 140 may include a second adjustment gear and a second transmission, the second adjustment gear providing an operating condition for a user to rotate under operation of the user. The second transmission part can be connected with the second display board, so that the second adjusting gear rotates to be transmitted to the second display board through the second transmission part, the position of the second display board corresponding to the second window is changed, and the month displayed to the user through the second window and the second prompt information corresponding to the month are changed. Of course, the second adjusting structure 140 may also adopt a structure different from that of the first adjusting structure 120, which is not limited herein, if necessary.

Illustratively, the third display structure 150 may be used to display week and day numbers corresponding to each other. Conventionally, a month's date number may be fully exposed to the user for user review and short-term planning. Thus, the third display structure 150 can display the date of the entire month and correspond the week number thereto.

For example, referring to table 3, table 3 is the month calendar of 5 2030:

TABLE 3

Thus, the third display structure 150 may be different from the first display structure 110, the second display structure 130, etc., and, for example, the third display structure 150 may include a week number display structure 151 and a date number display structure 152. Wherein week number display structure 151 may be used to display week numbers (one of a variety of preset ordering of week numbers, e.g., monday to sunday ordering; tuesday starting, monday ending, sunday starting, saturday ending, etc.); and the date number display structure 152 may be used to display the date number corresponding to the year number displayed by the first display structure 110 and the month number displayed by the second display structure 130. For example, if 29 days are available in month 2 of 2020, then date number display structure 152 may display days 1 through 29; if 31 days are in month 5 2030, the date number display structure 152 can display 1 to 31 days.

In this embodiment, because there are different corresponding manners between the week numbers and the date numbers of different months, in order to make the week numbers and the date numbers displayed by the third display structure 150 adjustable, the week numbers and the date numbers of different corresponding manners can be displayed with less display resources. In this embodiment, the non-electronic perpetual calendar display assembly 100 may further include a third adjustment structure 160 for adjusting the week number and the day number, which correspond to each other, of the determined year and month to be displayed by the third display structure 150 based on the user's operation.

Illustratively, the third adjustment structure 160 may include a day number adjustment structure 161, and the day number adjustment structure 161 may be connected to the day number display structure 151 for adjusting the day number to be displayed by the day number display structure 151 based on a user's operation. Of course, the specific structure type of the week number adjusting structure 161 can be selected according to actual needs, and is not limited herein.

For example, since the displayed sequentially arranged day numbers can be adjusted by cyclic shift, the day numbers displayed by the day number display structure 151 can be displayed by a cyclic belt structure. For example, reference may be made to a conveyor belt, week numbers being in a sequence, for example, the sequence of "one", "two", "three", "four", "five", "six", "day", by rotational translation, such that the seven week numbers displayed may start from any week number, such as: starting from "one" to "day" or starting from "three" to "two" end. Therefore, the week number can be simply and accurately adjusted.

The week number display structure 151 displays the week number, and the date number display structure 152 displays the date number corresponding to the year number displayed by the first display structure 110 and the month number displayed by the second display structure 130, and the week number adjustment structure 161 can adjust the week number to be displayed by the week number display structure 151 based on the user's operation, so that the correspondence between the week number and the date number under the year and month can be determined simply by adjusting the week number. The method can simplify the corresponding adjustment process of the week number and the day number, is convenient for a user to quickly and accurately adjust, and can realize the correspondence of the week number and the day number by adjusting a small part of the content (the week number comprises seven contents from Monday to Sunday, and the day number comprises 28 to 31 contents), thereby being convenient for designing and simplifying the structure and saving resources.

In addition, to enable adjustment of the number of dates (different months may have different total dates), the third adjustment structure 160 further includes a date number adjustment structure 162, and the date number adjustment structure 162 may be connected with the date number display structure 152 for adjusting the date of the month at which the date number display structure 152 is to be displayed for a certain month of the year based on user operation.

For example, referring to Table 1, day numbers 1-28 occupy rows 1-4 of the day number presentation section, and row 5 can be set to be adjustable to allow for adjustment of the number of dates.

Illustratively, row 5 of the date numbers displayed by the date number display structure 152 may contain 4 modes: the first mode, no date number, i.e., the month is only 28 days (e.g., 2 months of the year); the second mode, which includes date number 29, i.e., the month is only 29 days (e.g., leap year of 2 months); a third mode, comprising day numbers 29 and 30, i.e. 30 days of the month (e.g. 4 months); the fourth pattern, contains day numbers 29, 30 and 31, i.e., 31 days (e.g., 5 months) for the month.

Since the days 29 to 31 in the date numbers may be partially present, entirely present, or absent depending on the month or month of year, the date of the month at the time of the certain month of year to be presented by the date number presenting structure 152 (i.e., whether 29 days, 30 days, 31 days, etc. need to be presented or not) can be adjusted by the date number adjusting structure 162 based on the operation of the user, whereby the number of dates can be adjusted in a simple manner to suit the reality.

As described above, in order to introduce a non-electronic calendar provided in this embodiment of the present application, the first display structure 110 may display a year number and corresponding first indication information (each year number corresponds to one first indication information), the first adjustment structure 120 may adjust the year number to be displayed by the first display structure 110 and the first indication information corresponding to the year number, the second display structure 130 may display a month number and corresponding second indication information (each month number corresponds to one second indication information), and the first indication information and the second indication information are used to disclose a week number (for example, 1 day corresponds to 1 month 1 day of 2019) corresponding to a target date (for example, 1 day) when a month (for example, 5 months of 2019) is determined, so that a user may adjust the week number and the day number corresponding to each other when a month is determined by operating the third adjustment structure 160 (that adjustment 3 corresponds to 1 number, as a calendar for the year and month). The century calendar product obtained in such a way does not need to use an electronic device, can greatly save the cost and is more environment-friendly; on the other hand, the adjustable non-electronic hundred-year-calendar product can be obtained through few resources, and the user can accurately display the specific date of the month (namely, the number of the day corresponds to the day of the week) only by adjusting once every month.

In order to enrich the functions and the practicability of daily necessities (learning appliances such as pen containers, writing cases, etc.; ornaments such as toy ornaments; functional articles such as table lamps, clocks, etc.), a non-electronic calendar display assembly 100 may be combined with these daily necessities, thereby enriching the functions of the daily necessities. Accordingly, embodiments of the present application also provide a daily decoration object, which includes a non-electronic calendar display assembly 100 and a decoration assembly. The non-electronic calendar display assembly 100 may be disposed on or inside the decoration assembly, and displays the year number, the corresponding first prompt information, the month number, the corresponding second prompt information, and the week number and the date number corresponding to each other through the decoration assembly.

The non-electronic perpetual calendar display assembly 100 and the ornament assembly are matched with each other to display the information of the year, the corresponding first prompt information, the month, the corresponding second prompt information, the week number, the date number and the like which are corresponding to each other, so that the non-electronic perpetual calendar display assembly 100 can be combined with some daily necessities (namely, ornament objects for daily use), the daily necessities have the calendar function of the non-electronic perpetual calendar, on one hand, the appearance and the function of the daily necessities can be enriched, and the practicability of the articles is improved; on the other hand, the expense of purchasing daily necessities (namely daily ornament objects) by a user can be further reduced, and the service life of the daily necessities can be prolonged.

In the following, several exemplary daily necessities will be described by taking the cooperation with the non-electronic calendar display assembly 100 as an example, but should not be construed as limiting the present application.

In the present embodiment, taking a daily decoration object as a pen container as an example, please refer to fig. 2, and fig. 2 is a schematic view of a century calendar pen container 200 provided in the present embodiment. The hundred year calendar pen holder may include a pen holder wall 210 and a pen holder base 220, the pen holder wall 210 is disposed on the pen holder base 220, and an accommodating space formed by the pen holder wall 210 and the pen holder base 220 is used for accommodating stationery.

The pen container wall 210 is a hollow structure, and the non-electronic century calendar display component 100 is partially or completely arranged in the hollow structure so as to display the year number and the corresponding first prompt information, the month number and the corresponding second prompt information, and the date number and the week number which correspond to each other through a display window arranged on the pen container wall 210.

For example, the outer side surface of the pen container wall 210 may be provided with a plurality of display windows, so that the non-electronic century calendar display assembly 100 displays information such as a year number and corresponding first prompt information, a month number and corresponding second prompt information, and a date number and a week number corresponding to each other.

The non-electronic calendar display assembly 100 may be partially disposed in the hollow structure of the pen container wall 210, for example, the first display structure 110, the second display structure 130, and the third display structure 150 are partially disposed in the hollow structure, and display information to be displayed through the display window formed on the pen container wall 210. The main body parts of the first adjusting structure 120, the second adjusting structure 140 and the third adjusting structure 160 are disposed in the hollow structure, and the operation member for facilitating the adjustment operation by the user is disposed on the surface of the pen barrel wall 210 for the user to operate.

By combining the non-electronic perpetual calendar with the pen container, on one hand, the non-electronic perpetual calendar has greater practicability for student groups and lower cost; on the other hand, the pen container has practical functions, long service life and suitability, and is favorable for enlightening the principle that student groups think of non-electronic perpetual calendars on the pen container.

In the present embodiment, taking a daily decoration object as an example of a hundred-year calendar clock, please refer to fig. 3, and fig. 3 is a schematic diagram of a hundred-year calendar clock 300 according to the present embodiment. The centurie calendar clock 300 may include a housing 310, a clock assembly 320 (e.g., hands, movement, etc.), and a non-electronic centurie calendar display assembly 100.

Illustratively, the case 310 may be provided with a dial, a plurality of displays and corresponding adjustment portions, and the timepiece assembly 320 and the non-electronic calendar display assembly 100 may be disposed inside the case 310. When the first display structure 110, the second display structure 130 and the third display structure 150 of the non-electronic calendar display assembly 100 are arranged inside the casing 310, the first display structure, the second display structure and the third display structure can be matched with a plurality of display parts on the casing 310 to display year numbers and corresponding first prompt information, month numbers and corresponding second prompt information, and day numbers and week numbers which correspond to each other; when the first adjusting structure 120, the second adjusting structure 140, and the third adjusting structure 160 of the non-electronic calendar display assembly 100 are disposed inside the casing, an adjusting operation component (e.g., a knob, a dial tooth, etc.) may be disposed on the surface of the casing 310, so that a user may operate the first adjusting structure 120, the second adjusting structure 140, or the third adjusting structure 160 by adjusting the adjusting operation component, thereby adjusting the year number displayed by the display portion and the corresponding first prompt information, the month number and the corresponding second prompt information, and the date number and the week number corresponding to each other.

The schematic diagram of the centurie clock 300 before assembly is shown in fig. 4, and the final assembled centurie clock 300 is shown in fig. 5.

By combining the non-electronic perpetual calendar with the clock, on one hand, the functions of the clock can be enriched, and the perpetual calendar and the clock have certain complementarity and matching performance, so that the function of the clock is more powerful; on the other hand, the clock has long average service life, and the clock is matched with the functions of the non-electronic perpetual calendar, so that the clock is beneficial to making the best use of things.

In the present embodiment, taking a day decoration object as a decoration of a century date toy vehicle as an example, please refer to fig. 6, and fig. 6 is a schematic view of a decoration 400 of a century date toy vehicle according to an embodiment of the present application. The centuries toy vehicle decoration 400 may include a toy vehicle housing, toy wheels, and a non-electronic perpetual calendar display assembly 100.

For example, the surface of the toy car housing may be provided with a plurality of display portions, and the non-electronic calendar display assembly 100 may be disposed in the toy car housing and connected to the toy wheels, in cooperation with the plurality of display portions to display the year number and the corresponding first prompt information, the month number and the corresponding second prompt information, the date number and the week number corresponding to each other, and to provide the condition for adjusting the information displayed by the display portions for the user through the toy wheels.

For example, when the first display structure 110, the second display structure 130, and the third display structure 150 of the non-electronic calendar display assembly 100 are disposed inside the toy vehicle shell, the first display structure, the second display structure, and the third display structure can be matched with a plurality of display portions on the surface of the toy vehicle shell to display the year number and the corresponding first prompt information, the month number and the corresponding second prompt information, and the date number and the week number corresponding to each other. When the first adjusting structure 120, the second adjusting structure 140, and the third adjusting structure 160 of the non-electronic calendar display assembly 100 are disposed inside the toy vehicle housing, the first adjusting structure 120, the second adjusting structure 140, and the third adjusting structure 160 may be connected to a toy wheel connected to the toy vehicle housing, so that the toy wheel may be used as an operation component for controlling the first adjusting structure 120, the second adjusting structure 140, or the third adjusting structure 160 to operate, and thus, a user may control the first adjusting structure 120, the second adjusting structure 140, or the third adjusting structure 160 to operate through the toy wheel, thereby adjusting the information of the year number displayed on the display portion, the corresponding first prompt information, the month number, the corresponding second prompt information, the corresponding day number, the week number, and the like.

The figure of the centenary toy vehicle ornament 400 is shown in fig. 7 before assembly, and the figure of the centenary toy vehicle ornament 400 is shown in fig. 8 after assembly.

By combining the non-electronic perpetual calendar with the toy car ornament, the ornament with decoration function has better functional practicability, so that the article used for practical use (such as a calendar) has better decoration function, the service life of the ornament is usually longer, and the ornament capable of displaying the perpetual calendar is guaranteed to be used as the best.

In summary, the embodiment of the present application provides a non-electronic calendar display assembly 100 and a calendar pen container, a clock and a toy car ornament, wherein a year number and corresponding first prompt information (each year number corresponds to one first prompt information) can be displayed through a first display structure 110, the year number and corresponding first prompt information of the year number to be displayed through the first display structure 110 can be adjusted through a first adjustment structure 120, a month number and corresponding second prompt information (each month number corresponds to one second prompt information) can be displayed through a second display structure 130, and the first prompt information and the second prompt information are used for revealing a week number (e.g., week 3 corresponding to 1 day of 5.1.2019) corresponding to a target date (e.g., 1.1.2019) during a certain year and month (e.g., 5.1.1.4), so that a user can adjust the week number and the week number (i.e., adjust the week number and the week number) corresponding to each other during the certain year and month to be displayed by a third display structure 150 through an operation of a third adjustment structure 160 3 corresponds to number 1 as a calendar for the month and year). The century calendar product obtained in such a way does not need to use an electronic device, can greatly save the cost and is more environment-friendly; on the other hand, the adjustable non-electronic hundred-year-calendar product can be obtained through few resources, and the user can accurately display the specific date of the month (namely, the number of the day corresponds to the day of the week) only by adjusting once every month.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (7)

1. A non-electronic perpetual calendar display assembly, comprising:

the first display structure is used for displaying the year numbers and corresponding first prompt information, wherein each year number corresponds to one first prompt information;

the first adjusting structure is connected with the first display structure and used for adjusting the year number to be displayed by the first display structure and first prompt information corresponding to the year number based on the operation of a user;

the second display structure is used for displaying month numbers and corresponding second prompt information, wherein each month number corresponds to one second prompt information, and the first prompt information and the second prompt information are used for revealing week numbers corresponding to target dates of determined year and month;

the second adjusting structure is connected with the second display structure and used for adjusting the month number to be displayed by the second display structure and second prompt information corresponding to the month number based on the operation of a user;

the third display structure is used for displaying the week number and the date number which correspond to each other;

and the third adjusting structure is connected with the third display structure and used for adjusting the week number and the date number which are mutually corresponding to each other when the determined year and month is displayed by the third display structure based on the operation of a user.

2. The non-electronic perpetual calendar display assembly according to claim 1, wherein said third display structure comprises:

the week number display structure is used for displaying week numbers, wherein the week numbers are one of week numbers in a plurality of preset sequences;

a date number display structure for displaying a date number corresponding to the year number displayed by the first display structure and the month number displayed by the second display structure;

correspondingly, the third adjusting structure comprises a week number adjusting structure, is connected with the week number display structure and is used for adjusting the week number to be displayed by the week number display structure based on the operation of a user.

3. The non-electronic perpetual calendar display assembly according to claim 2, wherein said third adjustment structure further comprises:

and the date number adjusting structure is connected with the date number display structure and is used for adjusting the date of the determined year and month to be displayed by the date number display structure based on the operation of a user.

4. The non-electronic perpetual calendar display assembly according to any one of claims 1 to 3, wherein the first display structure comprises a first display board and a first window, the first display board is provided with a plurality of year numbers and first prompt messages corresponding to each year number, and the first adjustment structure comprises:

a first adjustment gear for providing an operating condition to a user to rotate under an operation of the user;

the first transmission piece is respectively connected with the first adjusting gear and the first display board;

the rotation of the first adjusting gear is transmitted to the first display board through the first transmission piece so as to change the position of the first display board corresponding to the first window, and therefore the year displayed to a user through the first window and the first prompt information corresponding to the year are changed.

5. A century calendar pen container, comprising:

a barrel wall and barrel base, and the non-electronic calendar display assembly of any one of claims 1 to 4;

the pen container wall is arranged on the pen container base, and the accommodating space formed by the pen container wall and the pen container base is used for accommodating stationery;

the pen barrel wall is of a hollow structure, and the non-electronic hundred-year calendar display component is partially or completely arranged in the hollow structure so as to display the year number and the corresponding first prompt information, the month number and the corresponding second prompt information, and the date number and the week number which correspond to each other through a display window arranged on the pen barrel wall.

6. A centuries calendar clock, comprising:

a housing and clock assembly, and the non-electronic calendar display assembly of any one of claims 1 to 4;

the casing is provided with a dial plate, a plurality of display parts and corresponding adjusting parts;

the clock component and the non-electronic perpetual calendar display component are arranged inside the shell;

the non-electronic calendar display assembly is arranged inside the shell, the display part is matched with a plurality of display years, first prompt information, month numbers, second prompt information, date numbers and week numbers, and the adjustment part is used for adjusting the conditions of the information displayed by the display part.

7. A centuries calendar toy vehicle ornament, comprising:

a toy vehicle housing and toy vehicle wheels, and the non-electronic calendar display assembly of any one of claims 1 to 4;

a plurality of display parts are arranged on the surface of the toy car shell;

the non-electronic perpetual calendar show subassembly sets up in the toy car casing, and with the toy wheel is connected, and the cooperation is a plurality of show portion show year number and the first prompt information, month number and the second prompt information that corresponds, the date number and the week number that correspond each other of corresponding, and, through the toy wheel provides the regulation for the user the condition of the information that show portion showed.

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