阅读说明：本技术 一种二进制时间显示体 (binary time display body ) 是由 邹军 郑巧瑜 石明明 杨波波 于 2019-10-24 设计创作，主要内容包括：本发明公开了一种二进制时间显示体,包括：时显示区、分显示区；时显示区至少包括四个时显示单元,每个时显示单元的显示状态至少包括第一时显示状态、第二时显示状态；时显示单元顺序布设,时显示区的小时读数可根据每个时显示单元的显示状态使用二进制算法得到；分显示区至少包括六个分显示单元,每个分显示单元的显示状态至少包括第一分显示状态、第二分显示状态；分显示单元顺序布设,分显示区的分钟读数可根据每个分显示单元的显示状态使用二进制算法得到。(the invention discloses a binary time display body, comprising: a time display area and a sub display area; the time display area at least comprises four time display units, and the display state of each time display unit at least comprises a first time display state and a second time display state; the time display units are sequentially arranged, and the hour reading of the time display area can be obtained by using a binary algorithm according to the display state of each time display unit; the sub display area at least comprises six sub display units, and the display state of each sub display unit at least comprises a first sub display state and a second sub display state; the sub-display units are sequentially arranged, and the minute reading of the sub-display area can be obtained by using a binary algorithm according to the display state of each sub-display unit.)

1. A binary time display comprising:

A time display area and a sub display area;

the time display area at least comprises four time display units, and the display state of each time display unit at least comprises a first time display state and a second time display state; the time display units are sequentially arranged, and the hour reading of the time display area can be obtained by using a binary algorithm according to the display state of each time display unit;

the sub display area at least comprises six sub display units, and the display state of each sub display unit at least comprises a first sub display state and a second sub display state; the sub-display units are sequentially arranged, and the minute readings of the sub-display areas can be obtained by using a binary algorithm according to the display state of each sub-display unit.

2. The binary time display according to claim 1, further comprising a second display area, wherein the second display area comprises at least six second display units, and the display state of each second display unit comprises at least a first second display state and a second display state; the second display units are sequentially arranged, and the second reading of the second display area can be obtained by using a binary algorithm according to the display state of each second display unit.

3. The binary time display according to claim 2, wherein said time display unit, said zone display unit and said second display unit are all LED display lamps;

The first time display state is the on state of the LED display lamp, and the second time display state is the off state of the LED display lamp;

The first sub-display state is the on state of the LED display lamp, and the second sub-display state is the off state of the LED display lamp;

the first second display state is the on state of the LED display lamp, and the second display state is the off state of the LED display lamp;

The binary time display body also comprises a control chip, a circuit board and a power supply, and the LED display lamp is welded on the circuit board in a partition mode according to time, minute and second;

the LED display lamps are connected with the control chip in a welding mode, each LED display lamp is correspondingly connected onto the control chip through pin definition, and the control chip controls the LED display lamps to be turned on and off according to binary time;

The circuit board and the control chip are electrically connected with the power supply.

4. The binary time display according to claim 3, wherein the binary time display comprises 16 LED display lamps, the 16 LED display lamps are linearly arranged in three rows, the three rows are divided into a time display area, a sub display area and a second display area by adopting the LED display lamps with different colors, the LED display lamps in each row are uniform in color, the first row is 4 LED display lamps and is used for indicating the time display area, the second row is 6 LED display lamps and is used for indicating the sub display area, and the third row is 6 LED display lamps and is used for indicating the second display area;

the 16 LED display lamps are welded on the circuit board according to three-column linear arrangement.

5. the binary time display of claim 3, further comprising a housing, said LED display light, said control chip, said circuit board, said power source being disposed within said housing.

6. The binary time display according to claim 5, further comprising a clock chip connected to each of said LED display lights.

7. The binary time display according to claim 1, wherein the LED display lamps are red, yellow and blue LED display lamps, and the three colors are linearly arranged in three rows, and each row has the same color.

8. The binary time display according to claim 3, wherein a USB interface is disposed on the binary time display, and the USB interface is electrically connected to the power supply for charging the power supply.

9. the binary time display according to claim 5, further comprising a pair of watchbands, wherein the watchbands are connected to the housing in a two-sided snap-fit manner, an embedded manner or an absorption manner.

10. the binary time display according to claim 9, wherein the connection manner of the pair of bands is snap-fit or suction type.

11. a binary time display body is characterized by comprising at least one time display area, wherein the time display area comprises a plurality of display units, and the display state of each display unit at least comprises a first display state and a second display state; the display units are sequentially arranged, and the time reading of the time display area can be obtained by using a binary algorithm according to the display state of each display unit;

The number of the display units in each time display area is obtained according to a binary algorithm and a time type constraint condition;

The time type constraints include one or more of year, month, day, hour, minute, and second.

Technical Field

The invention belongs to the field of electronic products, and particularly relates to a binary time display.

Background

Because the functions of the mobile phone are increasingly improved, the proportion of the mobile phone in daily life of people is also increased, so that people can carry the mobile phone with the mobile phone no matter what the mobile phone is, the mobile phone serves as an MP3, the mobile phone serves as a television, the mobile phone serves as a watch and the like, the watch is no longer used as a time recorder alone, and the watch is more used as a toy capable of showing identity, cool and fun. No watches based on the binary principle are currently on the market.

Disclosure of Invention

The invention aims to provide a binary system time display body which is suitable for being used by a student or a consumer who understands the binary system, so that a user can develop the mental power for calculation while watching the time, and the mental power can be effectively prevented from declining.

in order to solve the problems, the technical scheme of the invention is as follows:

A binary watch comprises a time display area and a sub-display area;

The time display area at least comprises four time display units, and the display state of each time display unit at least comprises a first time display state and a second time display state; the time display units are sequentially arranged, and the hour reading of the time display area can be obtained by using a binary algorithm according to the display state of each time display unit;

The sub display area at least comprises six sub display units, and the display state of each sub display unit at least comprises a first sub display state and a second sub display state; the sub-display units are sequentially arranged, and the minute readings of the sub-display areas can be obtained by using a binary algorithm according to the display state of each sub-display unit.

In a preferred embodiment of the present invention, the display device further comprises a second display area, the second display area at least comprises six second display units, and the display state of each second display unit at least comprises a first second display state and a second display state; the second display units are sequentially arranged, and the second reading of the second display area can be obtained by using a binary algorithm according to the display state of each second display unit.

in a preferred embodiment of the present invention, the time display unit, the area display unit, and the second display unit are all LED display lamps;

The first time display state is the on state of the LED display lamp, and the second time display state is the off state of the LED display lamp;

the first sub-display state is the on state of the LED display lamp, and the second sub-display state is the off state of the LED display lamp;

the first second display state is the on state of the LED display lamp, and the second display state is the off state of the LED display lamp;

The binary time display body also comprises a control chip, a circuit board and a power supply, and the LED display lamp is welded on the circuit board in a partition mode according to time, minute and second;

The LED display lamps are connected with the control chip in a welding mode, each LED display lamp is correspondingly connected onto the control chip through pin definition, and the control chip controls the LED display lamps to be turned on and off according to binary time;

the circuit board and the control chip are electrically connected with the power supply.

In a preferred embodiment of the present invention, the binary time display body includes 16 LED display lamps, the 16 LED display lamps are linearly arranged in three rows, the three rows are divided into a time display area, a sub display area and a second display area by using the LED display lamps with different colors, the LED display lamps in each row have uniform color, the first row includes 4 LED display lamps for indicating the time display area, the second row includes 6 LED display lamps for indicating the sub display area, and the third row includes 6 LED display lamps for indicating the second display area;

The 16 LED display lamps are welded on the circuit board according to three-column linear arrangement.

in a preferred embodiment of the invention, the LED display lamp further comprises a shell, and the LED display lamp, the control chip, the circuit board and the power supply are arranged in the shell.

In a preferred embodiment of the present invention, the LED display lamp further comprises a clock chip, and the clock chip is connected to each of the LED display lamps.

in a preferred embodiment of the present invention, the LED display lamps are red, yellow and blue LED display lamps, the three colors are linearly arranged in three rows, and the colors of each row are the same.

in a preferred embodiment of the present invention, a USB interface is disposed on the binary time display, and the USB interface is electrically connected to the power supply and is configured to charge the power supply.

in a preferred embodiment of the present invention, the watch further includes a pair of watchbands, and the connection manner of the watchbands and the case is a two-side snap-in type, an embedded type or an adsorption type.

In a preferred embodiment of the present invention, the connection manner of the pair of watchbands is a snap-fit type or an absorption type.

The invention also provides a binary time display body which comprises at least one time display area, wherein the time display area comprises a plurality of display units, and the display state of each display unit at least comprises a first display state and a second display state; the display units are sequentially arranged, and the time reading of the time display area can be obtained by using a binary algorithm according to the display state of each display unit;

the number of the display units in each time display area is obtained according to a binary algorithm and a time type constraint condition;

the time type constraints include one or more of year, month, day, hour, minute, and second.

Due to the adoption of the technical scheme, compared with the prior art, the invention has the following advantages and positive effects:

the invention adopts the binary system principle to display time, divides two display areas, namely an instant display area and a sub-display area, the time display area at least comprises 4 time display units, if the time system represents 12 hours, 4 time display units are adopted, each time display unit at least comprises two time display states to represent 0 or 1 in the binary system, and the time reading can be obtained by using the binary system algorithm according to the display states of the time display units; the sub display area at least comprises 6 sub display units, the 6 sub display units can display 60 minutes in one hour, each sub display unit at least comprises two sub display states to represent 0 or 1 in a binary system, and the reading of the minutes can be obtained by using a binary algorithm according to the display states of the sub display units.

in one embodiment of the invention, three LED display lamps with different colors are linearly arranged into 3 rows, and the colors of the LED display lamps in each row are consistent. Three rows respectively comprise 4, 6 and 6 LED display lamps as a second hand, 12-hour system time is displayed according to a binary system algorithm, the three rows of LED display lamps which are linearly arranged are connected with a circuit board in a welding mode according to the shape of a dial, and the control chip enables the LED display lamps to be turned on and off according to specific time through setting programs to represent the specific time. The embodiment represents a specific time point by the on-off of the LED display lamp on the principle of binary system by changing the idea that the conventional lower pointer rotates 360 degrees around the dial plate, represents one-twentieth hour by 1 degree and represents one-sixth minute by 1 degree.

Drawings

fig. 1 is a schematic structural diagram of a binary wristwatch of embodiment 2;

Fig. 2 is a schematic view of a snap-fit connection structure of the watch dial case and the band in embodiment 2;

FIG. 3 is a schematic view of an embedded connection structure of the watch dial case and the band of embodiment 2;

fig. 4 is a schematic view of an adsorption type connection structure of the wristwatch dial case and the band of embodiment 2;

fig. 5 is a linear arrangement of the circuit board and the LED display lamp of embodiment 2;

FIG. 6 is a snap-fit connection of the band of embodiment 2;

FIG. 7 is a schematic view showing the adsorption type connection of the band of example 2;

FIG. 8 is a schematic diagram showing 8 o' clock 32 min 10 sec of the wristwatch in embodiment 2;

fig. 9 is a circuit connection diagram of embodiment 2.

description of reference numerals: 1-watch dial case; 2-LED display lamps; 3-a control chip; 4-a clock chip; 5-a circuit board; 6-watchband; 7-USB interface.

Detailed Description

the present invention provides a binary time display, which is further described in detail below with reference to the accompanying drawings and specific embodiments. Advantages and features of the present invention will become apparent from the following description and from the claims.