CN203193935U - Intelligent light-operated module - Google Patents

Abstract

The utility model relates to an intelligent light-operated module comprising a light intensity detection circuit and a microprocessor control circuit; output signals of the light intensity detection circuit pass an NAND gate trigger circuit and are transmitted to the microprocessor control circuit; output signals of the microprocessor control circuit are sent to a GSM transmit-receive module circuit and a drive circuit; when light intensity in the environment changes, the intelligent light-operated module will send drive signals after determination by the microprocessor so as to control load illumination equipment, and simultaneously a GSM short message transmit-receive module is driven to send switch signal state information to on duty personnel, thereby realizing light-operated power supply wireless remote monitoring.

Description

A kind of intelligent light-controlled module

Technical field

The utility model relates to a kind of light-operated module, particularly be a kind of intelligent light-controlled module.

Background technology

Traditional adjusting control circuit is generally manually or remote control light modulating, and its shortcoming is to realize intellectualized operation control or wireless remote monitering.

The utility model content

The purpose of this utility model is to overcome above-mentioned deficiency, and a kind of intelligent light-controlled module is provided.

The technical scheme that its technical problem that solves the utility model adopts is: a kind of intelligent light-controlled module, include light intensity testing circuit and microprocessor control circuit, the output signal of described light intensity testing circuit transfers to microprocessor control circuit through the NAND gate circuits for triggering, and the output signal of described microprocessor control circuit is sent to GSM transceiver module circuit and drive circuit.

Preferably, described light intensity testing circuit adopts photo resistance RL to gather light signal, the end ground connection of described photo resistance RL, and the other end connects power supply through potentiometer RP, resistance R 2 successively.

Preferably, described NAND gate circuits for triggering adopt CD4011 NAND gate module I C3.

By adopting above-mentioned technical scheme, the beneficial effects of the utility model are: when the light intensity of environment changes, the utility model is by after the microprocessor judges, send the driving signal, the control load lighting apparatus, drive the GSM short message transceiving module simultaneously to the switching signal state information of sending on duty, realize light-operated power supply wireless remote monitoring.

Description of drawings

Fig. 1 is frame assumption diagram of the present utility model;

Fig. 2 is circuit theory diagrams of the present utility model.

Embodiment

Further specify the utility model below in conjunction with the drawings and specific embodiments.

As shown in Figure 1 and Figure 2, a kind of intelligent light-controlled module of the present utility model, include light intensity testing circuit 1 and microprocessor control circuit 2, the output signal of described light intensity testing circuit 1 transfers to microprocessor control circuit 2 through NAND gate circuits for triggering 11, and the output signal of described microprocessor control circuit 2 is sent to GSM transceiver module circuit 21 and drive circuit 22.

Described light intensity testing circuit 1 adopts photo resistance RL to gather light signal, the end ground connection of described photo resistance RL, the other end is successively through potentiometer RP, resistance R 2 connects power supply, described NAND gate circuits for triggering 11 adopt CD4011 NAND gate module I C3, when photo resistance RL is not subjected to ectocine, photo resistance RL is in high-impedance state, the input of the inner D1 of CD4011 NAND gate module I C3 is high level, be output as low level, this signal is input to the 36th pin I/O end of microprocessor IC1, after microprocessor IC1 identification is judged, divide two-way to send control signal, first via output is sent the driving signal by microprocessor IC1 to GSM short message transceiving module IC2, after the inner SIM card of GSM short message transceiving module IC2 and the decoding of inner integration module, to specifying personnel hand machine on duty to send current switching signal state information.Another road output, the 34th pin output triggering signal by microprocessor IC1 through resistance R 1 current limliting, makes the controllable silicon SCR conducting, connects the power supply of contactor KM, promotes the electric consumption on lighting device power supply (DPS).

When extraneous light intensity changed, the resistance of photo resistance RL reduced and conducting, and the inner D1 of CD4011 NAND gate module I C3 is input as low level.This shows that the light intensity that photo resistance RL receives can be controlled, the variation of the inner D1 output end voltage of CD4011 NAND gate module I C3 value.This signal is input to microprocessor IC1 the 36th pin I/O end, after microprocessor IC1 identification is judged, divide two-way to send control signal, first via output, send the driving signal by microprocessor IC1 to GSM short message transceiving module IC2, after the inner SIM card of GSM short message transceiving module IC2 and the decoding of inner integration module, to specifying the operator on duty to send current switching signal state information.Another road output by microprocessor IC1 the 34th pin output low-potential signal, ends controllable silicon SCR, cut off the power supply of contactor KM, cut off electric consumption on lighting equipment, its advantage is not limited by communication distance, easy to operate, be applied to special occasions, reach intelligent control management.

Above-described only is a preferred embodiment of the present utility model, can not limit the scope that the utility model is implemented, and every equalization of doing according to the utility model claim changes and decorates, and all should still belong in the scope that the utility model contains.

Claims (3)

1. intelligent light-controlled module, it is characterized in that: include light intensity testing circuit (1) and microprocessor control circuit (2), the output signal of described light intensity testing circuit (1) transfers to microprocessor control circuit (2) through NAND gate circuits for triggering (11), and the output signal of described microprocessor control circuit (2) is sent to GSM transceiver module circuit (21) and drive circuit (22).

2. intelligent light-controlled module according to claim 1, it is characterized in that: described light intensity testing circuit (1) adopts photo resistance RL to gather light signal, the end ground connection of described photo resistance RL, the other end connect power supply through potentiometer RP, resistance R 2 successively.

3. intelligent light-controlled module according to claim 1 and 2 is characterized in that: described NAND gate circuits for triggering (11) employing CD4011 NAND gate module I C3.

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