CN209949511U - Intelligent control system for luminous environment - Google Patents

Abstract

The utility model relates to an intelligent control system of luminous environment, which comprises a main controller, a 86 controller and an illumination controller, wherein the main controller is connected with the 86 controller through wireless communication, the 86 controller is connected with the illumination controller through wireless communication, the main controller comprises a main controller circuit board and a power board, the main controller circuit board is electrically connected with the power board, the main controller circuit board comprises a main board body, a single chip microcomputer MCU, a 2.4G wireless communication module a and a light sensor, the 86 controller comprises a 86 controller circuit board, a 2.4G wireless communication module b, a main control chip and a key module are arranged on the 86 controller circuit board, the illumination controller comprises a light source, a 2.4G wireless communication module c and a light adjusting chip, the light source and the 2.4G wireless communication module c are respectively electrically connected with the light adjusting chip, through adopting a wireless 2.4G technology, the networking is simple and the control is convenient, the light brightness of the light source can be automatically adjusted, the indoor constant illumination is maintained, the power consumption for indoor illumination is effectively reduced, and energy and power are saved.

Description

Intelligent control system for luminous environment

Technical Field

The utility model relates to a luminous environment control field especially relates to a luminous environment intelligence control system.

Background

The existing light control is mostly controlled in a wired mode, wiring is complex, construction is difficult, cost input is increased, circuits are exposed to affect indoor attractiveness, the indoor attractiveness can not be adjusted automatically according to indoor brightness, the energy-saving effect is poor, the existing wireless control system needs a zigbee protocol, a zigbee control gateway needs to be arranged to form a network, and the defects of complex configuration, unstable signals, unstable connection, increased input cost and higher maintenance cost are overcome.

SUMMERY OF THE UTILITY MODEL

To the current situation of above-mentioned prior art, the utility model aims to solve the technical problem that an intelligent control system of luminous environment is provided to solve prior art problem.

The utility model provides a technical scheme that above-mentioned technical problem adopted does:

the utility model provides a luminous environment intelligence control system, includes main control unit, 86 controller and lighting controller, main control unit passes through wireless communication with 86 controller and is connected, 86 controller passes through wireless communication with lighting controller and is connected, main control unit includes main control unit circuit board and power strip, the main control unit circuit board sets up the dead ahead at the power strip, and this main control unit circuit board is connected with the power strip electricity, and this main control unit circuit board includes mainboard body, singlechip MCU, 2.4G wireless communication module a and photo sensor, 2.4G wireless communication module a, singlechip MCU and photo sensor set up on mainboard body leading flank, 2.4G wireless communication module a and photo sensor are connected with singlechip MCU electricity respectively, 86 controller includes 86 controller circuit board, is equipped with 2.4G wireless communication module b on this 86 controller circuit board, The lighting controller comprises a light source, a 2.4G wireless communication module c and a dimming chip, wherein the light source and the 2.4G wireless communication module c are respectively electrically connected with the dimming chip.

Preferably, the main controller circuit board further comprises a display screen, one end of the display screen is electrically connected with the power panel, and the other end of the display screen is electrically connected with the MCU.

Preferably, the main controller further comprises a panel, a front shell and a rear shell, the circuit board and the power panel are arranged between the front shell and the rear shell, the panel is embedded on the front shell, and the panel is made of glass.

Preferably, the power panel comprises a power panel body, an overvoltage and overcurrent protection circuit, a rectification filter circuit and a flyback isolation step-down circuit are arranged on the power panel body, the overvoltage and overcurrent protection circuit is connected with the rectification filter circuit, and the rectification filter circuit is connected with the flyback isolation step-down circuit.

Preferably, the overvoltage and overcurrent protection circuit comprises a fuse F1, a surge suppressor R1 and a piezoresistor R2, the fuse F1 and the surge suppressor R1 are connected in series, the piezoresistor R2 is connected with a fuse F1 and a surge suppressor R1 in parallel, the rectification filter circuit comprises a capacitor C1, a CLC filter, a capacitor C2, a bridge rectifier D3 and a capacitor C3 which are connected in parallel in sequence, the flyback isolation step-down circuit comprises a transformer, a power management chip, a sampling resistor and an optical coupler, the input end of the transformer and the output end of the optical coupler are respectively and electrically connected with the power management chip, one end of the sampling resistor is electrically connected with the input end of the optical coupler, and the other end of the sampling resistor is electrically connected with the output end of the transformer.

Preferably, a bluetooth transceiver is further arranged on the 86 controller circuit board, and the bluetooth transceiver is electrically connected with the main control chip.

Preferably, a temperature and humidity sensor is further arranged on the main controller circuit board and electrically connected with the MCU.

Preferably, the main controller circuit board is also provided with a curtain controller, and the curtain controller is electrically connected with the MCU.

Compared with the prior art, the utility model has the advantages of:

through adopting wireless 2.4G technique, realize with the wireless network deployment of light source, the network deployment is simple, do not need the control scheme wiring, control gateway, connect stably, the cost is saved, the address of light source is look for to the mode of accessible broadcast, the light source return address adds the network and realizes the network deployment, emission instruction gives lighting controller after the network deployment, lighting controller receives to do the switch behind the instruction, adjust luminance etc. operation, adopt 86 controllers, replace ordinary switch, control is convenient, through setting up photo sensor, can sense indoor illumination, the light brightness of automatically regulated light source, maintain indoor constant illumination intensity, effectively reduce the indoor illumination power consumption, energy-conserving power saving, can effectively improve indoor illumination light environment, alleviate visual fatigue, the utility model relates to a rationally, accord with market demand, be fit for promoting.

Drawings

FIG. 1 is a schematic diagram of the main controller circuit of the present invention;

FIG. 2 is a schematic diagram of the main controller of the present invention;

fig. 3 is a schematic diagram of the present invention.

Detailed Description

As shown in fig. 1-3, the lighting device comprises a main controller 6, a 86 controller 7 and a lighting controller 8, the main controller 6 is connected with the 86 controller 7 through wireless communication, the 86 controller 7 is connected with the lighting controller 8 through wireless communication, the main controller 6 comprises a main controller circuit board 3 and a power board 2, the main controller circuit board 3 is arranged right in front of the power board 2, the main controller circuit board 3 is electrically connected with the power board 2, the main controller circuit board 3 comprises a main board body, a single-chip Microcomputer (MCU), a 2.4G wireless communication module a and a light sensor, the 2.4G wireless communication module a, the single-chip Microcomputer (MCU) and the light sensor are arranged on the front side surface of the main board body, the 2.4G wireless communication module a and the light sensor are respectively electrically connected with the MCU, the 86 controller 7 comprises a 86 controller circuit board, and a 2.4G wireless communication module b is arranged on the 86 controller circuit board, The lighting controller comprises a main control chip and a key module, wherein the 2.4G wireless communication module b and the key module are respectively electrically connected with the main control chip, the lighting controller 8 comprises a light source, a 2.4G wireless communication module c and a dimming chip, and the light source and the 2.4G wireless communication module c are respectively electrically connected with the dimming chip.

When in operation, current flows into the main controller, the 86 controller and the lighting controller at the same time, wherein the current in the main controller sequentially passes through the overvoltage and overcurrent protector, the rectifier filter circuit, the flyback isolation voltage reduction circuit and the single-chip microcomputer MCU, wherein the overvoltage and overcurrent protector can ensure that the voltage value and the current value in the circuit are kept in a specified range, the rectifier filter circuit can convert alternating current electric energy into direct current electric energy and can filter out ripples flowing in the current, the flyback isolation voltage reduction circuit can convert high voltage into low voltage through the transformer, the low voltage can be used by the single-chip microcomputer MCU, the sampling resistor is connected with the output end of the transformer, the voltage on the sampling resistor can be changed along with the change of the voltage at the output end of the transformer, the optical coupler connected with the sampling resistor can convert electric signals into optical signals, and then the optical signals are converted into electric signals to be sent to the power, the power management chip receives an electric signal sent by the optical coupler and then judges the electric signal, the power management chip can change the input voltage of the transformer, and therefore the purpose of voltage stabilization is achieved, the single-chip microcomputer MCU starts working after being electrified, a light sensor connected with the single-chip microcomputer MCU can sense the indoor brightness degree, converts an optical signal into an electric signal and sends the electric signal to the single-chip microcomputer MCU, meanwhile, the single-chip microcomputer MCU can control the 2.4G wireless communication module a to search for the address of the 2.4G wireless communication module b in a broadcasting mode, the 2.4G wireless communication module b sends an appointed signal in a broadcasting mode after receiving the information sent by the 2.4G wireless communication module a, networking is achieved after the 2.4G wireless communication module a receives the signal, the networking mode of the 2.4G wireless communication module b and the 2.4G wireless communication module c is the same as that of the 2.4G wireless communication module a, the single-chip microcomputer receives the electric signal sent by the light sensor and then sends the electric signal to the 2. The main control chip can judge after receiving the signal and send an electric signal to the 2.4G wireless communication module c through the 2.4G wireless communication module b, the 2.4G wireless communication module c receives the wireless signal and then sends the signal to the dimming chip in an electric signal mode, the dimming chip achieves the purpose of controlling the light and shade of the light source by adjusting the value of the current, meanwhile, a user can also control the light and shade of the light through a button module or a Bluetooth transceiver on a 86 controller circuit board and can also send the electric signal to the main control chip by pressing the button module, the main control chip sends the signal to the MCU through a wireless network, the MCU can control the curtain controller to work, the curtain controller can open or close the curtain, the circuit board of the main controller is also provided with a temperature and humidity sensor, the temperature and humidity sensor card detects the indoor temperature and humidity and converts the indoor temperature and humidity into electric signals to be sent to, the mobile phone of the user can also be connected with the 2.4G wireless communication module a through a wireless network, and the single chip microcomputer MCU can send the data of the temperature and the humidity to the mobile phone of the user through the 2.4G wireless communication module a.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that various changes in the embodiments and modifications thereof may be made, and equivalents may be substituted for elements thereof; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (8)

1. The utility model provides a luminous environment intelligence control system, its characterized in that, includes main control unit, 86 controller and lighting controller, main control unit passes through wireless communication with 86 controller and is connected, 86 controller passes through wireless communication with lighting controller and is connected, main control unit includes main control unit circuit board and power strip, the main control unit circuit board sets up in the dead ahead of power strip, and this main control unit circuit board is connected with the power strip electricity, and this main control unit circuit board includes mainboard body, singlechip MCU, 2.4G wireless communication module a and photoinducer, 2.4G wireless communication module a, singlechip MCU and photoinducer set up on mainboard body leading flank, 2.4G wireless communication module a and photoinducer are connected with MCU electricity respectively, 86 controller includes the 86 controller circuit board, is equipped with 2.4G wireless communication module b, the light sensor circuit board is equipped with, The lighting controller comprises a light source, a 2.4G wireless communication module c and a dimming chip, wherein the light source and the 2.4G wireless communication module c are respectively electrically connected with the dimming chip.

2. A light environment intelligent control system according to claim 1, wherein the main controller circuit board further comprises a display screen, one end of the display screen is electrically connected with the power panel, and the other end of the display screen is electrically connected with the MCU.

3. A light environment intelligent control system according to claim 2, wherein the main controller further comprises a panel, a front housing and a rear housing, the circuit board and the power board are arranged between the front housing and the rear housing, the panel is embedded on the front housing, and the panel is made of glass.

4. A light environment intelligent control system according to claim 3, wherein the power panel comprises a power panel body, and the power panel body is provided with an over-voltage over-current protection circuit, a rectification filter circuit and a flyback isolation step-down circuit, wherein the over-voltage over-current protection circuit is connected with the rectification filter circuit, and the rectification filter circuit is connected with the flyback isolation step-down circuit.

5. A light environment intelligent control system according to claim 4, wherein the overvoltage and overcurrent protection circuit comprises a fuse F1, a surge suppressor R1 and a piezoresistor R2, the fuse F1 and the surge suppressor R1 are connected in series, the piezoresistor R2 is connected with a fuse F1 and a surge suppressor R1 in parallel, the rectification filter circuit comprises a capacitor C1, a CLC filter, a capacitor C2, a bridge rectifier D3 and a capacitor C3 which are connected in parallel in sequence, the flyback isolation voltage reduction circuit comprises a transformer, a power management chip, a sampling resistor and an optical coupler, the input end of the transformer and the output end of the optical coupler are respectively electrically connected with the power management chip, one end of the sampling resistor is electrically connected with the input end of the optical coupler, and the other end of the sampling resistor is electrically connected with the output end of the transformer.

6. A light environment intelligent control system according to claim 5, wherein a Bluetooth transceiver is further provided on the 86 controller circuit board, and the Bluetooth transceiver is electrically connected to the main control chip.

7. A light environment intelligent control system according to claim 6, wherein a temperature and humidity sensor is further arranged on the main controller circuit board, and the temperature and humidity sensor is electrically connected with the MCU.

8. A light environment intelligent control system according to claim 7, wherein a curtain controller is further provided on the main controller circuit board, the curtain controller being electrically connected to the MCU.

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