CN203120235U

CN203120235U - Light induction automatic control system

Info

Publication number: CN203120235U
Application number: CN2013200345671U
Authority: CN
Inventors: 张永清
Original assignee: Individual
Current assignee: Chongqing Juyuan Energy Management Co Ltd
Priority date: 2013-01-17
Filing date: 2013-01-17
Publication date: 2013-08-07
Anticipated expiration: 2023-01-17

Abstract

The utility model relates to a light induction automatic control system, which comprises a light acquisition circuit, a radar detection circuit, a trigger circuit and a drive circuit. The output signals of the light acquisition circuit and the radar detection circuit are respectively transmitted to the trigger circuit. The output signals of the trigger circuit are sent to the drive circuit. The integrated light-controlled illumination power saver provided by the utility model automatically turns off indoor lights when the indoor illumination is high enough to satisfy the illumination demands or there are no students having a class. When the indoor illumination is not high enough, the indoor lights are then automatically turned on. The purposes of energy conservation and intelligentized control are thus achieved.

Description

The light sensing automatic control system

Technical field

The utility model relates to a kind of control system, particularly be a kind of light sensing automatic control system.

Background technology

Many fluorescent tubes have all been installed to strengthen illuminance in order to protect student's eyesight by a lot of schools in the classroom.But, illuminance too strong and too a little less than all student's eyesight is not all had benefit, and illuminance is penetrated very sufficient the time outside by the school that has, and is still opening whole lamps, is skimble-skamble like this, namely causes the waste of the energy, has injured student's eyesight again.

The utility model content

The purpose of this utility model is to overcome above-mentioned deficiency, and a kind of light sensing automatic control system is provided.

The technical scheme that its technical problem that solves the utility model adopts is: the light sensing automatic control system, comprise light Acquisition Circuit, radar detection circuit, circuits for triggering and drive circuit, the output signal of described light Acquisition Circuit and radar detection circuit transfers to circuits for triggering respectively, and the output signal of described circuits for triggering is sent to drive circuit.

Preferably, described light Acquisition Circuit is made of potentiometer RP1, the resistance R 2 of photo resistance RG and series connection thereof.

Preferably, described radar detection circuit is made of resistance R 1 and the ring Shape antenna Y1 of TWH9250 detecting module IC2 and connection thereof, and the output of described TWH9250 detecting module IC2 is connected with triode Q1 and isolating diode D1 in turn.

Preferably, described circuits for triggering adopt 555 time base module IC1.

By adopting above-mentioned technical scheme, the beneficial effects of the utility model are: light harvesting control illumination electricity-saving appliance of the present utility model, can be when indoor illumination intensity be very strong, can satisfy illumination fully or not have under the condition of class hour on the student, automatically close indoor light, and when indoor illumination intensity was not enough, lamp can be lighted again automatically, reached energy-conservation and intelligent control.

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, light sensing automatic control system of the present utility model, comprise light Acquisition Circuit 1, radar detection circuit 2, circuits for triggering 3 and drive circuit 31, the output signal of described light Acquisition Circuit 1 and radar detection circuit 2 transfers to circuits for triggering 3 respectively, and the output signal of described circuits for triggering 3 is sent to drive circuit 31.

Civil power is after transformer TR step-down, diode VD1-VD4 rectification, capacitor C 3 filtering, after the inner voltage stabilizing of voltage stabilizing integration module IC is handled, for this machine provides working power.Described light Acquisition Circuit 1 is made of potentiometer RP1, the resistance R 2 of photo resistance RG and series connection thereof, described circuits for triggering 3 adopt 555 time base module IC1, the 2nd, 6 pin of 555 time base module IC1 are connected with the light Acquisition Circuit 1 that potentiometer RP1, resistance R 2 are formed with photo resistance RG, when setting illuminance intensity, the RP2 that can adjust the connection of potentiometer RP1 and 555 time base module IC1 outputs finishes.

When emanating light illumination when dying down by force, the resistance of photo resistance RG is changed from small to big, when the 2nd, the 6 pin voltages of 555 time base module IC1 drop to certain value, after comparing through 555 time base module IC1 internal comparator, the 3rd pin output high level of 555 time base module IC1, make triode VT1 conducting, mains lighting supply is connected in the relay K adhesive.

When emanating light illumination changes from weak to strong, the resistance of photo resistance RG from large to small, when the 2nd, the 6 pin voltages of 555 time base module IC1 rise to certain value, after 555 time base module IC1 internal comparator compare, 555 time base module IC1 the 3rd pin output low level, triode VT1 is ended, and relay K discharges, and cuts off indoor illumination.

Described radar detection circuit 2 is made of resistance R 1 and the ring Shape antenna Y1 of TWH9250 detecting module IC2 and connection thereof, the output of described TWH9250 detecting module IC2 is connected with triode Q1 and isolating diode D1 in turn, when human body is movable in effective investigative range, ring Shape antenna Y1 just receives microwave that human body reflects after TWH9250 detecting module IC2 internal circuit is handled, low level signal about about 10s of duration of the 2nd pin output output of TWH9250 detecting module IC2, this signal is after triode Q1 amplifies, the output high level signal, isolate this signal through isolating diode D1 and be input to the 2nd of 555 time base module IC1,6 pin, the 3rd pin output high level of 555 time base module IC1, make triode VT1 conducting, mains lighting supply is connected in the relay K adhesive.

When human body is unmovable in effective investigative range, the 2nd pin output of TWH9250 detecting module IC2 does not have signal output, the current collection collection of triode Q1 is high potential output, isolate the 2nd, 6 pin that this signal is input to 555 time base module IC1 through isolating diode D1,555 time base module IC1 internal comparator are upset not, the 3rd pin output high level of 555 time base module IC1, triode VT1 is ended, relay K discharges, and cuts off the room lighting power supply, reaches energy-conservation and intelligent control.

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

1. light sensing automatic control system, it is characterized in that: comprise light Acquisition Circuit (1), radar detection circuit (2), circuits for triggering (3) and drive circuit (31), the output signal of described light Acquisition Circuit (1) and radar detection circuit (2) transfers to circuits for triggering (3) respectively, and the output signal of described circuits for triggering (3) is sent to drive circuit (31).

2. light sensing automatic control system according to claim 1, it is characterized in that: described light Acquisition Circuit (1) is made of potentiometer RP1, the resistance R 2 of photo resistance RG and series connection thereof.

3. light sensing automatic control system according to claim 1, it is characterized in that: described radar detection circuit (2) is made of resistance R 1 and the ring Shape antenna Y1 of TWH9250 detecting module IC2 and connection thereof, and the output of described TWH9250 detecting module IC2 is connected with triode Q1 and isolating diode D1 in turn.

4. light sensing automatic control system according to claim 1 is characterized in that: described circuits for triggering (3) employing 555 time base module IC1.