CN202799325U - Intelligent sunset timing control device - Google Patents

Abstract

The utility model relates to an intelligent sunset timing control device. The device comprises a device body, wherein a power supply module is arranged on the device body and a mains supply interface is arranged at a main supplying end of the power supply module. The device is characterized in that an output end of the power supply module is connected to an energy input end of a main control component, an independent communication control module is arranged on the main control component, the communication control module is connected to a light control module and an auxiliary component respectively, a lighting control port is arranged on the main control component, a working control component is arranged between the main control component and the lighting control port, an auxiliary supplying end is arranged on the working control component and the auxiliary supplying end is connected to a secondary supplying end of the power supply module. Therefore, every year is divided into four date point control modes. By the aid of a clock circuit, the date delaying or advanced lighting time mode is set, and the design scheme of everyday lighting time can be calculated automatically in accordance with the set.

Description

Sunset timing intelligent control device

technical field

The utility model relates to a control device, in particular to a sunset timing intelligent control device.

Background technique

At present, outdoor advertisements (such as anti-aircraft artillery advertisements) generally use a simple timing controller. Its working principle is: the controller has a built-in clock. The device is turned on and off.

Specifically, in some outdoor advertisements, street lights and some landscape lighting, the demand is to demonstrate or illuminate after sunset, and the scheme described in 4.1 cannot be automatically adjusted with the sunset time, resulting in waste of energy or failure to achieve to the corresponding effect. Take Nanjing as an example: near the summer solstice, the daily sunset time is around 19:00, while near the winter solstice, the daily sunset time is around 17:00, with a maximum difference of 2 hours; In other words, if you turn on the lights at sunset every day, and turn on the lights at 17:00, the average annual power saving of the former can reach about 1,000 kWh of electricity.

Moreover, the existing devices cannot turn on the lights accordingly due to sudden bad weather (such as cloudy and rainy days) leading to the early arrival of night, thus failing to meet the user's needs. For this reason, users often need to arrange full-time personnel to adjust the time of turning on the lights. For the anti-aircraft artillery advertising industry, it is necessary to arrange personnel to adjust the time 5 to 10 times a year, thus causing a lot of labor costs. In the case of 4.3, the user often has to give up the adjustment because of the high cost.

Utility model content

The purpose of this utility model is to provide a sunset timing intelligent control device in order to solve the above-mentioned problems existing in the prior art.

The purpose of this utility model is achieved through the following technical solutions:

The sunset timing intelligent control device includes a device body, the device body is provided with a power module, and the main supply end of the power module is provided with a mains interface, wherein: the output end of the power module is connected to the energy source of the main control component At the input end, the main control component is provided with an independent communication control module, and the communication control module is respectively connected with a light control module and an auxiliary component, and the main control component is provided with a lighting control port. A working control component is arranged between the control component and the control port of the lighting fixture. The working control component is provided with an auxiliary supply end, and the auxiliary supply end is connected to the secondary supply end of the power module.

Further, in the above-mentioned sunset time sequence intelligent control device, wherein: the main control component is a single-chip microcomputer, and a built-in software module is arranged in the single-chip microcomputer.

Furthermore, in the above-mentioned sunset timing intelligent control device, wherein: the auxiliary components include a keyboard board, a display module, and a clock circuit.

Still further, in the above-mentioned sunset time-sequence intelligent control device, wherein: the display module is an LED display.

The advantages of the technical solution of the utility model are mainly reflected in: relying on the mutual cooperation between the main control component and the light control module, it is possible to divide each year into multiple node control and the design method of daily calculation difference, which not only reduces the annual Divided into 4 date node control modes. Moreover, relying on the participation of the clock circuit, it is possible to set the way of delaying or advancing the turn-on time of the day, and through this setting, automatically calculate the design scheme of the daily turn-on time. Furthermore, through the light control module, priority and fool-proof design control modes can be implemented to improve operating efficiency.

Description of drawings

The objects, advantages and features of the present invention will be illustrated and explained by the following non-limiting description of preferred embodiments. These embodiments are only typical examples of the application of the technical solutions of the utility model, and any technical solutions formed by equivalent replacement or equivalent transformation all fall within the protection scope of the utility model. Among these drawings,

Fig. 1 is a structural schematic diagram of a sunset timing intelligent control device.

1 Device body 2 Power module

3 mains interface 4 main control components

5 light control module 6 work control components

7 keyboard board 8 display module

9 clock circuit 10 software module

Detailed ways

The sunset timing intelligent control device shown in Figure 1 includes a device body 1, on which a power module 2 is arranged, and the main supply end of the power module 2 is provided with a mains power interface 3, which is unique The reason is that the output end of the power supply module 2 used in the present invention is connected to the energy input end of the main control assembly 4 . At the same time, for the convenience of control, an independent communication control module is arranged on the main control component 4, and the light control module 5 and the auxiliary component are respectively connected to the communication control module. Moreover, in order to be able to connect different lighting fixtures and perform optimal timing control, the main control component 4 is provided with a lighting fixture control port. Moreover, in order to satisfy the operation control of the main control component 4 itself, a working control component 6 is arranged between the main control component 4 and the control port of the lighting fixture. Certainly, considering the stable operation of the work control component 6 , an auxiliary supply terminal is provided on the work control component 6 , so that the auxiliary supply terminal is connected to the secondary supply terminal of the power module 2 .

As far as a preferred embodiment of the present invention is concerned, in order to facilitate debugging and control, the main control component 4 adopted is a single-chip microcomputer, and a built-in software module 10 is arranged in the single-chip microcomputer. Moreover, considering the convenience of the user's control, the auxiliary components include a keyboard board 7 , a display module 8 , and a clock circuit 9 . At the same time, in order to display clearly, reduce size obstacles, and make the overall structure more compact, the display module 8 is an LED display screen. Thus relying on the display screen to display the working status, for the user to confirm various parameters and display the adjustment results.

In conjunction with the actual use of the utility model, the built-in clock circuit 9 of the single-chip microcomputer is used for the single-chip microcomputer to retrieve date and time information therefrom, so that it can judge whether to perform the actions of turning on and off the lights. The power supply module 2 converts the commercial power into a low-voltage direct current to provide power for the utility model. At the same time, through the keyboard board 7, the user can set related programs, such as date, time, time for turning on the lights, time for turning off the lights, and the like. The single-chip microcomputer can be used as the core hardware of the control, and it is responsible for performing calculations according to the settings of the user under the action of the software module 10, and then issuing instructions for turning on and off the lights. Specifically, the adopted software module 10 can read and write the date and time information of the clock circuit 9, provide the user's setting window, perform calculations according to the user's setting content according to its built-in program, and transmit the calculation results Display correspondingly to the display screen of the single-chip microcomputer.

Specifically, it is possible to give the user the time adjustment to modify the date node and the date switch light of each node. The date node is to divide each year into 4 nodes, including summer solstice (around 6/22), summer solstice and winter solstice center point (around 9/22), winter solstice (around 12/22), winter solstice and summer solstice The center of the day (near 3/22). The utility model can provide the user to set the daily sunset time setting. This time will be automatically calculated by the software module 10, and start to advance the daily light-on time one day after the summer solstice, and postpone the daily light-on time with one day after the winter solstice. Through the date node information and the clock circuit 9, the real-time switch light time is calculated, and displayed on the display screen through the single-chip microcomputer, and at the same time, relevant operation instructions such as turning on the light are output.

During this period, the change information of the light control module 5 is received, and the operation of turning on the light is performed within the operating time set by the software module 10 . The internal setting of the software is that after 16:30 every day, if the weather is bad (rainy), regardless of whether the time set by the user is reached, the light will be turned on (and has priority control). And before 16:30, it does not turn on the lights regardless of weather changes. Moreover, it is possible to detect the darkening of the weather through the light control module 5 and convert it into an electrical signal for the single-chip microcomputer.

It can be seen from the above textual expressions that after adopting the utility model, relying on the mutual cooperation between the main control component and the light control module, it is possible to divide each year into multiple node control and the design method of daily calculation difference, It is a control mode that at least divides each year into 4 date nodes. Moreover, relying on the participation of the clock circuit, it is possible to set the way of delaying or advancing the turn-on time of the day, and through this setting, automatically calculate the design scheme of the daily turn-on time. Furthermore, through the light control module, priority and fool-proof design control modes can be implemented to improve operating efficiency.

Claims (4)

1. The sunset timing intelligent control device includes a device body, the device body is provided with a power module, and the main supply end of the power module is provided with a mains interface, and it is characterized in that: the output end of the power module is connected to the main The energy input end of the control component, the main control component is provided with an independent communication control module, the communication control module is respectively connected with a light control module and an auxiliary component, and the main control component is provided with a lighting control port A working control component is arranged between the main control component and the control port of the lighting fixture, and an auxiliary supply terminal is arranged on the working control component, and the auxiliary supply terminal is connected to the secondary supply terminal of the power module. 2. The sunset timing intelligent control device according to claim 1, characterized in that: said main control component is a single-chip microcomputer, and said single-chip microcomputer is provided with a built-in software module. 3. The sunset timing intelligent control device according to claim 1, characterized in that: said auxiliary components include a keyboard board, a display module, and a clock circuit. 4. The sunset timing intelligent control device according to claim 3, wherein the display module is an LED display.

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