CN219066321U - Desk calendar display equipment - Google Patents

Abstract

The utility model discloses a desk calendar display device. The apparatus includes: the energy storage device, the communication module, the display control module and the ink screen are arranged on the desk calendar shell; the ink screen is positioned on the front surface of the desk calendar shell, and the energy storage device, the communication module and the ink screen are all connected with the display control module; the energy storage device is used for supplying power to the display control module; the communication module is used for receiving the data to be displayed sent by the terminal equipment and sending the data to be displayed to the display control module; and the display control module is used for receiving the data to be displayed sent by the communication module and displaying the data to be displayed on the ink screen. The problems of high power consumption and energy waste caused by long-term calendar display by arranging the code breaking screen display screen and the power charging interface for the electronic calendar in the prior art are solved, the attractiveness of calendar display is improved while the energy consumption is reduced, and the effects of energy conservation, environmental protection and low consumption are achieved.

Description

Desk calendar display equipment

Technical Field

The utility model relates to the field of electronic calendars, in particular to a calendar display device.

Background

Electronic desk calendar is a popular electronic application, and has been widely used in various places such as home and office, and its functions and styles are also various.

In order to improve the practicability and fashion of electronic calendars, many designers generally use LCD screens, OLED screens or code-breaking screens as display screens to display contents on the display screens, but the display screen has high power consumption, so that the electronic calendars mostly use power adapters to supply power to the electronic calendars, and have the problem of resource waste.

Disclosure of Invention

The utility model provides a desk calendar display device, which can improve the attractiveness of desk calendar display and achieve the technical effects of energy conservation, environmental protection and low consumption while reducing energy consumption.

According to an aspect of the present utility model, there is provided a calendar display device comprising:

the energy storage device, the communication module, the display control module and the ink screen are arranged on the desk calendar shell; the ink screen is positioned on the front surface of the desk calendar shell, and the energy storage device, the communication module and the ink screen are all connected with the display control module;

the energy storage device is used for supplying power to the display control module;

the communication module is used for receiving data to be displayed sent by the terminal equipment and sending the data to be displayed to the display control module;

the display control module is used for receiving the data to be displayed sent by the communication module and displaying the data to be displayed on the ink screen.

Optionally, the energy storage device is a battery.

Optionally, the data to be displayed includes a background image to be used, a background style to be used, a correction date and/or a date type to be used; wherein the date type to be used comprises a Gregorian calendar, a lunar calendar, a week number, a solar term attribute and/or a festival attribute.

Optionally, the display control module is further configured to receive a correction date sent by the communication module, and update a current display date on the ink screen based on the correction date.

Optionally, the display control module is used for controlling the clock application to run; the clock application stores at least one date to be applied and date attributes corresponding to the dates to be applied;

the clock application is operated in a singlechip of the display control module;

and the clock application is used for sending a next display date of the current display date on the ink screen and a date attribute to be displayed corresponding to the next display date to the display control module when the timing moment recorded by the clock application reaches a preset moment, so that the display control module updates the current display information on the ink screen based on the next display date and the date attribute to be used corresponding to the next display date.

Optionally, the display control module is further configured to receive a date type to be used sent by the communication module, and send a target date attribute corresponding to the date type to be used and corresponding to a current display date on the ink screen to the ink screen for display.

Optionally, the display control module is further configured to control the display mode of the ink screen to be low-brightness display when the display duration of the display mode of the ink screen for high-brightness display reaches a preset first duration.

Optionally, the display control module further includes: an image storage module and a background updating module; the image storage module comprises at least one background style to be applied and at least one image to be displayed corresponding to each background style to be applied; the image storage module is used for receiving the background style to be used sent by the communication module and sending a target display image corresponding to the background style to be used to the background updating module; the background updating module is used for receiving the target display image sent by the image storage module and updating the display background image on the ink screen based on the target display image.

Optionally, the background updating module is further configured to receive a background image to be used sent by the communication module, and update the display background image on the ink screen based on the background image to be used.

According to the technical scheme, the energy storage device, the communication module, the display control module and the ink screen are arranged on the desk calendar shell; the ink screen is positioned on the front surface of the desk calendar shell, and the energy storage device, the communication module and the ink screen are all connected with the display control module; the energy storage device is used for supplying power to the display control module; the communication module is used for receiving the data to be displayed sent by the terminal equipment and sending the data to be displayed to the display control module; the display control module is used for receiving the data to be displayed sent by the communication module and displaying the data to be displayed on the ink screen, so that the problems of high power consumption and energy waste caused by long-term calendar display through arranging a broken code screen display screen and a power charging interface for the electronic calendar in the prior art are solved, the ink screen is configured for the calendar display equipment, the ink screen can still well display the data to be displayed under the condition of low consumption of the energy storage device, the calendar display equipment is attractive and saves energy, and the technical effects of energy conservation, environmental protection and low carbon are achieved while the use requirement of a user on the calendar is met.

It should be understood that the description in this section is not intended to identify key or critical features of the embodiments of the utility model or to delineate the scope of the utility model. Other features of the present utility model will become apparent from the description that follows.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural view of a desk calendar display device according to a first embodiment of the present utility model;

fig. 2 is a schematic structural diagram of a display control module according to an embodiment of the utility model.

Detailed Description

In order that those skilled in the art will better understand the present utility model, a technical solution in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without making any inventive effort, shall fall within the scope of the present utility model.

It should be noted that the terms "first," "second," and the like in the description and the claims of the present utility model and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the utility model described herein may be implemented in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Example 1

Fig. 1 is a schematic structural diagram of a calendar display device according to an embodiment of the present utility model, which is applicable to the case of electronic calendar display.

As shown in fig. 1, the calendar display device provided in this embodiment includes: the energy storage device 2, the communication module 3, the display control module 4 and the ink screen 5 are arranged on the desk calendar shell 1; the ink screen 5 is positioned on the front surface of the desk calendar shell 1, and the energy storage device 2, the communication module 3 and the ink screen 5 are all connected with the display control module 4; an energy storage device 2 for supplying power to the display control module 4; the communication module 3 is used for receiving the data to be displayed sent by the terminal equipment and sending the data to be displayed to the display control module 4; the display control module 4 is configured to receive the data to be displayed sent by the communication module 3, and display the data to be displayed on the ink screen 5.

The energy storage device 2 may be a battery. In order to effectively support long-term standby of the calendar display equipment and meet the requirements of energy conservation and low power consumption, the energy storage device can be a button battery or other batteries with low power consumption, long service life and other performances. The terminal device may include, but is not limited to, a mobile phone terminal, a notebook computer, a desktop computer, a tablet computer, and the like, and in practical application, a user may select corresponding desk calendar setting information in a desk calendar setting page in the terminal device according to a demand of the user for desk calendar display, and the corresponding desk calendar setting information is used as data to be displayed, where the data to be displayed may include, but is not limited to, a background image to be used, a background style to be used, a correction date and/or a date type to be used. The date to be used type may be used as basic information characterizing the date, and includes, but is not limited to, an calendar, a lunar calendar, a week number, a solar term attribute, a holiday attribute, and/or the like. The ink screen 5 serves as a display main body for displaying data to be displayed.

Specifically, the communication module 3 may perform wireless communication with the terminal device, and at the time of communication, the communication module 3 receives the background image to be used, the background style to be used, the correction date, and/or the date type to be used uploaded by the terminal device, and waits for display data. For example, the background image to be used may be a custom picture, the background style to be used may be a lovely or trusted display style, and the correction date may be a date value of the current day. The communication module 3 may send the data to be displayed to the display control module 4, and the display control module 4 displays the data to be displayed on the ink screen 5.

It should be noted that, in the process that the display control module 4 displays the data to be displayed on the ink screen 5, some data is not directly displayed, for example, the type of the date to be used is a solar term attribute, and at this time, a specific solar term attribute corresponding to the display date needs to be found from the perpetual calendar, for example, the solar term attribute is "rain water", and the "rain water" may be displayed on the ink screen 5.

Optionally, the display control module 4 is further configured to receive the correction date sent by the communication module 3, and update the current display date on the ink screen 5 based on the correction date.

In this embodiment, the display control module 4 may receive the correction date sent by the communication module 3, and send the correction date to the ink screen 5 for displaying, that is, the correction date is used as the current display date, so as to improve the convenience of time setting and correction in the calendar display device, and ensure the accuracy of the display time of the calendar.

Optionally, the display control module is further used for controlling the clock application to run; the clock application stores at least one date to be applied and date attributes corresponding to the dates to be applied; the clock application runs in the singlechip of the display control module 4; and the clock application is used for sending the next display date of the current display date on the ink screen 5 and the date attribute to be displayed corresponding to the next display date to the display control module 4 when the timing moment recorded by the clock application reaches the preset moment, so that the display control module 4 updates the current display information on the ink screen 5 based on the next display date and the date attribute to be used corresponding to the next display date.

The clock application may be a software program application with a time recording function, for example, may be a perpetual calendar software application, where the time recording changes with the change of the actual time, for example, information such as year, month, day, time, minute, second, etc. may be recorded. The date attribute includes a lunar calendar, a week number, a solar term attribute and/or a festival attribute, for example, the lunar calendar is 2022, month 8, month 7, the lunar calendar is 2022, the July beginning, the week is the sunday, the week number is the first week of the month, and the solar term attribute is the autumn.

In order to realize the daily update of the display time on the ink screen, when the preset time can be 00 points, in practical application, the clock application can be operated in the singlechip of the display control module 4, and further the clock application can perform real-time timing, and when the timing time in the timing time is 00 points, the timing time can be considered to reach the preset time. At this time, the next display date of the current display date on the ink screen 5 and the date attribute to be displayed corresponding to the next display date may be sent to the display control module 4, so that the display control module 4 automatically refreshes the display information on the ink screen 5 based on the new date and date attribute information. For example, the current count of the timer is 9 months 5, 23 points 59; when the time is counted to the point No. 00 of 9 months, the No. 6 of 9 months can be sent to the display control module 4, the display control module 4 is awakened, and the display information on the ink screen 5 is automatically refreshed, namely the No. 6 of 9 months is displayed on the ink screen 5.

Optionally, the display control module 4 is further configured to receive the date type to be used sent by the communication module 3, and send a target date attribute corresponding to the date type to be used and corresponding to the current display date on the ink screen 5 to the ink screen 5 for display.

In this embodiment, the communication module 3 may send the type of the date to be used to the display control module 4, and the display control module 4 may determine, by using the date stored in the perpetual calendar and the attribute information corresponding to the date, that the target date attribute corresponding to the type of the date to be used corresponding to the current display date on the ink screen 5 is sent to the ink screen 5 for display. For example, assuming that the display date is 2022, 8, 7 and the type of date to be used is the throttle attribute, the throttle attribute corresponding to 2022, 8, 7 in the lifetime calendar is the autumn, and the autumn can be displayed on the ink screen 5.

Optionally, the display control module 4 is further configured to control the display mode of the ink screen to be low-brightness display when the display duration of the display mode of the ink screen for high-brightness display reaches a preset first duration.

The preset first duration corresponds to the time for controlling the ink screen to sleep, for example, 30 seconds. It will be appreciated that due to the nature of the ink screen itself, it may also be possible to clearly display the date in the low-light display mode, and that the predetermined first duration may be as short as possible in order to reduce power consumption and save battery power.

In this embodiment, when the display mode of the ink screen is highlighting, the display duration of the ink screen may be recorded, and whether the display duration reaches the preset first duration may be determined, if yes, the display control module 4 is used to control the display mode of the ink screen 5 to be highlighting, that is, the desk calendar display device enters the low power sleep mode, at this time, even under the circumstance of highlighting, the ink screen 5 may clearly display the date and the corresponding content, so that the power consumption is effectively reduced, the energy is saved, and at the same time, the normal display of the display content is ensured, and the requirement of the user on the desk calendar is satisfied.

Optionally, the display control module 4 is further configured to control the display mode of the ink screen 5 to be highlighted when the ink screen 5 receives the content to be displayed (such as display date, date attribute, background image, etc.). At this time, the ink screen 5 is in an awake state.

Fig. 2 is a schematic structural diagram of a display control module according to an embodiment of the utility model. Optionally, the display control module 4 further includes: an image storage module 41 and a background update module 42; the image storage module 41 includes at least one background style to be applied and at least one image to be displayed corresponding to each background style to be applied; an image storage module 41, configured to receive the background style to be used sent by the communication module 3, and send a target display image corresponding to the background style to be used to the background update module 42; the background updating module 42 is configured to receive the target display image sent by the image storage module 41, and update the display background image on the ink screen 5 based on the target display image.

In this embodiment, the image storage module 41 may receive the background style to be used sent by the communication module 3, and take, as the target display image, the image to be displayed corresponding to the background style to be applied that matches the background style to be used, and may send the target display image to the background update module 42. The background updating module 42 may replace the display background image on the ink screen 5 with the target display image to display when receiving the target display image sent by the image storage module 41, where the target display image is the image being displayed by the ink screen 5, and the display image may be used as a background of the display content (such as display date, date attribute, etc.).

Optionally, the background updating module 42 is further configured to receive the background image to be used sent by the communication module 3, and update the display background image on the ink screen 5 based on the background image to be used.

Specifically, the background update module 42 may display the background image to be used, which is obtained from the communication module 3, on the ink screen 5. Illustratively, the end user may send the picture information to be updated to the background update module 42 via an applet in the terminal device, the background update module 42 updating the picture information to be displayed on the ink screen.

According to the technical scheme, the energy storage device, the communication module, the display control module and the ink screen are arranged on the calendar shell; the ink screen is positioned on the front surface of the desk calendar shell, and the energy storage device, the communication module and the ink screen are all connected with the display control module; the energy storage device is used for supplying power to the display control module; the communication module is used for receiving the data to be displayed sent by the terminal equipment and sending the data to be displayed to the display control module; the display control module is used for receiving the data to be displayed sent by the communication module and displaying the data to be displayed on the ink screen, so that the problems of high power consumption and energy waste caused by long-term calendar display through arranging a broken code screen display screen and a power charging interface for the electronic calendar in the prior art are solved, the ink screen is configured for the calendar display equipment, the ink screen can still well display the data to be displayed under the condition of low consumption of the energy storage device, the calendar display equipment is attractive and saves energy, and the technical effects of energy conservation, environmental protection and low carbon are achieved while the use requirement of a user on the calendar is met.

Example two

As an alternative embodiment of the foregoing embodiment, a specific application scenario example is given to make the technical solution of the embodiment of the present utility model further clear to those skilled in the art. In particular, reference may be made to the following details.

Illustratively, with continued reference to fig. 1, the calendar display device in the present embodiment includes a calendar housing 1, an energy storage device 2, a communication module 3, a display control module 4, and an ink screen 5. The display control module 4 may be an MCU (Microcontroller Unit, micro control unit), and the display control module 4 is configured to receive the picture data information uploaded by the terminal device. The ink screen 5 may be a display main body, and its display color may be color or black and white. The energy storage device 2 can be a battery, can realize low power consumption of the equipment, and supports long-term standby consumption.

In practical applications, the manner of using the calendar display device may be: when the calendar display device is in an on state, the end user may set a date for the calendar display device using an applet one-key in the terminal device. The calendar display equipment is internally provided with a perpetual calendar applet (i.e. clock application) and can update date information (including information such as the Gregorian calendar, the lunar calendar, the week number, the holiday and the like) every day at regular time. The end user may also send the picture information to be updated to the calendar display device using an applet in the terminal device, which updates the picture information to be displayed on the ink screen. When the display time length reaches a preset first time length (such as 1 s), the calendar display equipment enters a low-power sleep mode until the next calendar display equipment is awakened, and the data is updated again.

It should be noted that, in the technical solution, the display content of the calendar display device is concise, such as displaying the calendar, the lunar calendar, the week number, the holiday, etc., and the displaying background picture can be made according to the user's requirement DIY (Do It you rself). The desk calendar display equipment can be used as fashion ornaments to be placed in various places such as families and offices, meanwhile, the desk calendar display equipment is also provided with a built-in battery (such as a button battery), the desk calendar display equipment does not need an external power supply to supply power, long-term standby and work can be realized only by the battery, and the desk calendar display equipment has the advantages of energy conservation, environmental protection and low carbon.

According to the technical scheme, the energy storage device, the communication module, the display control module and the ink screen are arranged on the calendar shell; the ink screen is positioned on the front surface of the desk calendar shell, and the energy storage device, the communication module and the ink screen are all connected with the display control module; the energy storage device is used for supplying power to the display control module; the communication module is used for receiving the data to be displayed sent by the terminal equipment and sending the data to be displayed to the display control module; the display control module is used for receiving the data to be displayed sent by the communication module and displaying the data to be displayed on the ink screen, so that the problems of high power consumption and energy waste caused by long-term calendar display through arranging a broken code screen display screen and a power charging interface for the electronic calendar in the prior art are solved, the ink screen is configured for the calendar display equipment, the ink screen can still well display the data to be displayed under the condition of low consumption of the energy storage device, the calendar display equipment is attractive and saves energy, and the technical effects of energy conservation, environmental protection and low carbon are achieved while the use requirement of a user on the calendar is met.

Note that the above is only a preferred embodiment of the present utility model and the technical principle applied. It will be understood by those skilled in the art that the present utility model is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the utility model. Therefore, while the utility model has been described in connection with the above embodiments, the utility model is not limited to the embodiments, but may be embodied in many other equivalent forms without departing from the spirit or scope of the utility model, which is set forth in the following claims.

Claims (8)

1. A calendar display device, comprising: the energy storage device, the communication module, the display control module and the ink screen are arranged on the desk calendar shell; the ink screen is positioned on the front surface of the desk calendar shell, and the energy storage device, the communication module and the ink screen are all connected with the display control module;

the energy storage device is used for supplying power to the display control module;

the communication module is used for receiving data to be displayed sent by the terminal equipment and sending the data to be displayed to the display control module;

the display control module is used for receiving the data to be displayed sent by the communication module and displaying the data to be displayed on the ink screen.

2. The apparatus of claim 1, wherein the energy storage device is a battery.

3. The device of claim 1, wherein the display control module is further configured to receive a correction date sent by the communication module and update a current display date on the ink screen based on the correction date.

4. The apparatus of claim 1, wherein the display control module is further configured to control a clock application to run; the clock application stores at least one date to be applied and date attributes corresponding to the dates to be applied;

the clock application is operated in a singlechip of the display control module;

the clock application is used for sending a next display date of the current display date on the ink screen and a date attribute to be displayed corresponding to the next display date to the display control module when the timing moment recorded by the clock application reaches a preset moment;

and the display control module is also used for updating the current display information on the ink screen based on the next display date and the date attribute to be used corresponding to the next display date.

5. The apparatus according to claim 1 or 4, wherein the display control module is further configured to receive a date type to be used sent by the communication module, and send a target date attribute corresponding to the date type to be used and corresponding to a current display date on the ink screen to the ink screen for display.

6. The apparatus of claim 4, wherein the display control module is further configured to control the display mode of the ink screen to be low-light when a display duration in which the display mode of the ink screen is high-light reaches a preset first duration.

7. The apparatus of claim 1, wherein the display control module further comprises: an image storage module and a background updating module; the image storage module comprises at least one background style to be applied and at least one image to be displayed corresponding to each background style to be applied;

the image storage module is used for receiving the background style to be used sent by the communication module and sending a target display image corresponding to the background style to be used to the background updating module;

the background updating module is used for receiving the target display image sent by the image storage module and updating the display background image on the ink screen based on the target display image.

8. The device of claim 7, wherein the background update module is further configured to receive a background image to be used sent by the communication module, and update a display background image on the ink screen based on the background image to be used.

Images