CN104582207A - Intelligent illumination control system for garage - Google Patents

Abstract

The invention discloses an intelligent illumination control system for a garage. The intelligent illumination control system for the garage disclosed by the invention comprises a plurality of mutually connected intelligent control modules, microwave sensors and illumination lamps, wherein each intelligent control module comprises a MCU control module respectively connected with communication modules and a power supply; the communication modules are mutually connected through an RS485 bus; one end of a first input module is connected with the MCU control module; the other end of the first input module is connected with one microwave sensor; one end of a second input module is connected with the MCU control module; the other end of the second input module is connected with another microwave sensor; one end of a first output module is connected with the MCU control module; the other end of the first output module is connected with one illumination lamp; one end of a second output module is connected with the MCU control module; and the other end of the second output module is connected with another illumination lamp. Compared with the prior art, the intelligent illumination control system for the garage disclosed by the invention has the benefits that control programs set by the intelligent control modules are same; when a certain intelligent control module is failed, the intelligent illumination control system can be used normally only by replacing the failed intelligent control module; and control software do not need to be redesigned again.

Description

A kind of garage intelligent lighting system

Technical field

The present invention relates to a kind of control system, specifically a kind of garage intelligent lighting system.

Background technology

At present, the intelligence degree very backwardness in China's Urban Underground garage, does not have the special device for vehicle heading, the vacant detection in parking stall, light Based Intelligent Control in underground garage.Bring a lot of trouble thus: owing to not having the vacant detection in parking stall, car owner, when blindly finding parking stall, wastes time and resource, it is bright that underground garage lighting can not accomplish that car carrys out lamp, car is walked lamp and is gone out, according to statistics, China's illumination power consumption accounts for 10 ~ 12% of national gross generation substantially, increasing sharply of electric consumption on lighting, not only to increase a large amount of Electricity Investments, the development of restriction national economy, and generating also will produce a large amount of pollution, the Lighting Design of underground garage is also the important component part of electrical design, and in order to the needs of satisfied illumination, underground garage has become the big power consumer hidden in city, in current underground garage, car owner is when parking cars, special messenger is sent to guide, car owner blindly finds parking stall, special messenger is sent to guide effort again consuming time, and when the personnel of guiding are busy, car owner oneself is still needed blindly to find parking stall, meanwhile, conventional garage light power-economizing method mainly contains: reduce light fixture quantity, but this method may bring security risk, cause unnecessary accident, use acoustic control lamp, this method is relatively energy-conservation, but there is the problem of the frequent switch life minimizing of bulb, also exists and opens by mistake logical phenomenon, entirely bright at times, this method is relatively simple, and energy-saving effect is general, also intelligent not, therefore, with regard to a kind of multi-function device collecting the vacant detection in parking stall, vehicle heading detection, light Based Intelligent Control of exigence in underground garage.

Summary of the invention

The object of the present invention is to provide a kind of garage intelligent lighting system, to solve the problem proposed in above-mentioned background technology.

For achieving the above object, the invention provides following technical scheme:

A kind of garage intelligent lighting system, comprise several by the interconnective intelligent control module of RS485 bus, microwave remote sensor and illuminating lamp, each intelligent control module comprises MCU control module, power supply and communication module, MCU control module is connected with power supply with communication module respectively, be interconnected by RS485 bus between communication module, described intelligent control module also comprises the first input module, the second input module, the first output module and the second output module; First input module one end is connected with MCU control module, and the other end is connected with a microwave remote sensor, and second input module one end is connected with MCU control module, and the other end is connected with another microwave remote sensor; First output module one end is connected with MCU control module, and the other end is connected with an illuminating lamp, and second output module one end is connected with MCU control module, and the other end is connected with another illuminating lamp.

Preferably, described MCU model is STC15F2K60S2_QFP44.

Preferably, described first input module comprises optocoupler PC817 and resistance R1, resistance R1 one end connects 12V positive source, the resistance R1 other end connects optocoupler PC817 transmitting terminal positive pole, optocoupler PC817 transmitting terminal negative pole connects a microwave remote sensor, optocoupler PC817 receiving terminal minus earth, optocoupler PC817 receiving terminal positive pole respectively contact resistance R2 and MCU pin INI 1, the resistance R2 other end connects 5V positive source.

Preferably, described second input module comprises optocoupler PC817 and resistance R3, resistance R3 one end connects 12V positive source, the resistance R3 other end connects optocoupler PC817 transmitting terminal positive pole, optocoupler PC817 transmitting terminal negative pole connects another microwave remote sensor, optocoupler PC817 receiving terminal minus earth, optocoupler PC817 receiving terminal positive pole respectively contact resistance R4 and MCU pin INI2, the resistance R4 other end connects 5V positive source.

Preferably, described first output module comprises bidirectional triode thyristor BTA1 and chip MOC3021, chip MOC3021 pin 1 contact resistance R16, resistance R16 other end connecting triode Q1 collector electrode, triode Q1 base stage connects MCU pin OUT1 by resistance R19, triode Q1 emitter connects 5V positive source, described chip MOC3021 pin 2 ground connection, chip MOC3021 pin 4 respectively contact resistance R18 and bidirectional triode thyristor BTA1 controls pole, the resistance R18 other end connects the T1 pole of connector P5 pin 1 and bidirectional triode thyristor BTA1 respectively, plug-in unit P5 pin 2 connects 220V alternating current zero line, the T2 pole of described bidirectional triode thyristor BTA1 connects 220V alternating current fire wire and resistance R15 respectively, the resistance R15 other end connects chip MOC3021 pin 6, connector P5 is connected with an illuminating lamp.

Preferably, described second output module comprises bidirectional triode thyristor BTA2 and chip MOC3021, chip MOC3021 pin 1 contact resistance R21, resistance R21 other end connecting triode Q2 collector electrode, triode Q2 base stage connects MCU pin OUT2 by resistance R19, triode Q2 emitter connects 5V positive source, described chip MOC3021 pin 2 ground connection, chip MOC3021 pin 4 respectively contact resistance R23 and bidirectional triode thyristor BTA1 controls pole, the resistance R23 other end connects the T1 pole of connector P7 pin 1 and bidirectional triode thyristor BTA2 respectively, plug-in unit P7 pin 2 connects 220V alternating current zero line, the T2 pole of described bidirectional triode thyristor BTA2 connects 220V alternating current fire wire and resistance R20 respectively, the resistance R20 other end connects chip MOC3021 pin 6, connector P7 is connected with another illuminating lamp.

Compared with prior art, the invention has the beneficial effects as follows: 1. sending a car by real-time detection underground garage, when there being automobile to walk in underground garage, automatically controlling the illuminating lamp opened in garage; 2. this system can realize the driving path of projected vehicle in advance, and only open the illuminating lamp that automobile will leave for circuit, other illuminating lamp is not opened; 3. the control program of the intelligent control module setting in control system is the same, and intelligent control module adopts the mode of relay baton, only needs modules to couple together just can use during installation; When certain intelligent control module breaks down, only certain intelligent control module broken down need be replaced and just can normally use, not need to redesign control software design.

Accompanying drawing explanation

Fig. 1 is garage schematic layout pattern in garage intelligent lighting system;

Fig. 2 is the theory diagram that intelligent control module is connected with illuminating lamp with microwave remote sensor;

Fig. 3 is MCU control module circuit diagram in garage intelligent lighting system;

Fig. 4 is the first input module circuit diagram in garage intelligent lighting system;

Fig. 5 is the second input module circuit diagram in garage intelligent lighting system;

Fig. 6 is the first output module circuit diagram in garage intelligent lighting system;

Fig. 7 is the second output module circuit diagram in garage intelligent lighting system;

In Fig. 1: 1-intelligent control module, 2-intelligent control module, 3-intelligent control module, 4-intelligent control module, 5-first microwave remote sensor, 6-second microwave remote sensor, 7-first microwave remote sensor, 8-second microwave remote sensor, 9-first microwave remote sensor, 10-second microwave remote sensor, 11-first microwave remote sensor, 12-second microwave remote sensor.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

Refer to Fig. 1 ~ 7, in the embodiment of the present invention, a kind of garage intelligent lighting system, comprise multiple by the interconnective intelligent control module of RS485 bus, microwave remote sensor and illuminating lamp, each intelligent control module comprises MCU control module, power supply and communication module, MCU control module is connected with power supply with communication module respectively, be interconnected by RS485 bus between communication module, described intelligent control module also comprises the first input module, the second input module, the first output module and the second output module; First input module one end is connected with MCU control module, and the other end is connected with a microwave remote sensor, and second input module one end is connected with MCU control module, and the other end is connected with another microwave remote sensor; First output module one end is connected with MCU control module, and the other end is connected with an illuminating lamp, and second output module one end is connected with MCU control module, and the other end is connected with another illuminating lamp, and MCU control module model is STC15F2K60S2_QFP44.

First input module comprises optocoupler PC817 and resistance R1, resistance R1 one end connects 12V positive source, the resistance R1 other end connects optocoupler PC817 transmitting terminal positive pole, optocoupler PC817 transmitting terminal negative pole connects a microwave remote sensor, optocoupler PC817 receiving terminal minus earth, optocoupler PC817 receiving terminal positive pole respectively contact resistance R2 and MCU pin INI 1, the resistance R2 other end connects 5V positive source.Second input module comprises optocoupler PC817 and resistance R3, resistance R3 one end connects 12V positive source, the resistance R3 other end connects optocoupler PC817 transmitting terminal positive pole, optocoupler PC817 transmitting terminal negative pole connects another microwave remote sensor, optocoupler PC817 receiving terminal minus earth, optocoupler PC817 receiving terminal positive pole respectively contact resistance R4 and MCU pin INI2, the resistance R4 other end connects 5V positive source.

First output module comprises bidirectional triode thyristor BTA1 and chip MOC3021, chip MOC3021 pin 1 contact resistance R16, resistance R16 other end connecting triode Q1 collector electrode, triode Q1 base stage connects MCU pin OUT1 by resistance R19, triode Q1 emitter connects 5V positive source, described chip MOC3021 pin 2 ground connection, chip MOC3021 pin 4 respectively contact resistance R18 and bidirectional triode thyristor BTA1 controls pole, the resistance R18 other end connects the T1 pole of connector P5 pin 1 and bidirectional triode thyristor BTA1 respectively, plug-in unit P5 pin 2 connects 220V alternating current zero line, the T2 pole of described bidirectional triode thyristor BTA1 connects 220V alternating current fire wire and resistance R15 respectively, the resistance R15 other end connects chip MOC3021 pin 6, connector P5 is connected with an illuminating lamp.Second output module comprises bidirectional triode thyristor BTA2 and chip MOC3021, chip MOC3021 pin 1 contact resistance R21, resistance R21 other end connecting triode Q2 collector electrode, triode Q2 base stage connects MCU pin OUT2 by resistance R19, triode Q2 emitter connects 5V positive source, described chip MOC3021 pin 2 ground connection, chip MOC3021 pin 4 respectively contact resistance R23 and bidirectional triode thyristor BTA1 controls pole, the resistance R23 other end connects the T1 pole of connector P7 pin 1 and bidirectional triode thyristor BTA2 respectively, plug-in unit P7 pin 2 connects 220V alternating current zero line, the T2 pole of described bidirectional triode thyristor BTA2 connects 220V alternating current fire wire and resistance R20 respectively, the resistance R20 other end connects chip MOC3021 pin 6, connector P7 is connected with another illuminating lamp.

Operation principle of the present invention is: refer to Fig. 1, 1) when car is come in from garage port, it is individual when the first microwave remote sensor 5 detects car, the MCU control module of intelligent control module 1 sends control signal makes the illuminating lamp of its control area open, when the second microwave remote sensor 6 detects car again time, illustrate that the path direction of car is from the first microwave remote sensor 5 to the second microwave remote sensor 6, so, the MCU of intelligent control module 1 sends information to RS485 bus 1, the MCU control module of intelligent control module 2 receives the information in RS485 bus 1, illustrate that car just travels toward its control area, at this moment, the MCU control module of intelligent control module 2 opens all illuminating lamps of its control area in advance.When running car to first microwave remote sensor 7 time, because have RS485 bus 1 to the signal of coming, the MCU control module of intelligent control module 2 comprehensively analyzes the detection signal of RS485 bus 1 and the first microwave remote sensor 7, determine that the travel direction of car is from RS485 bus 1 to the first microwave remote sensor 7, so estimating can through the second microwave remote sensor 8, may through parking area 4 or parking area 1, just photos and sending messages is in RS485 bus 2, because connect in RS485 bus 2 and have the MCU control module of intelligent control module 3 and the MCU control module of intelligent control module 4, so the MCU control module of the MCU control module of intelligent control module 3 and intelligent control module 4 all have received the signal that automobile may drive to this region, just the illuminating lamp of the MCU control module of intelligent control module 3 and the MCU control module control of intelligent control module 4 is opened in advance.If car is from intelligent control module 3 region process, not through the region at intelligent control module 4 place, so will can't detect signal with the first microwave remote sensor 11 of intelligent control module 4, after 30 seconds, just automatically close the illuminating lamp of parking area 4.Car enters intelligent control module 3 region, and the first microwave remote sensor 9 detects signal, and confirm that car travels from intelligent control module 3 region, the MCU control module of intelligent control module 3 sends the information in running car path to 485 buses 3.If there is multi-section car to enter garage simultaneously, and have car to walk from intelligent control module 3 region, also there is car to walk from intelligent control module 4 region simultaneously, so the first microwave remote sensor 9 and the first microwave remote sensor 11 all detect the signal that automobile enters, similar when next step control is come in from garage port with car, control method is constant.

2) when automobile from parking stall 1 out time, first microwave remote sensor 7 detects signal, the MCU control module of intelligent control module 2 sends control signal and is opened by the illuminating lamp of parking area 2, a photos and sending messages is to RS485 bus 1 simultaneously, the content of the illuminating lamp only opening half is had in signal, when the MCU control module of intelligent control module 1 receives the signal of RS485 bus 1, illuminating lamp (illuminating lamp on the left side is not first opened) on the right of opened areas 1, when the second microwave remote sensor 6 detects signal, the illuminating lamp of parking area 1 is all opened, if intelligent control module 1 also has RS485 bus above, so give RS485 bus sending information, allow the MCU control module of next intelligent control module that its illuminating lamp controlled all is opened.

3) if need the quality checking illuminating lamp, the order of standard-sized sheet is sent by the MCU control module of the intelligent control module connecting any one RS485 bus, so after the MCU control module of its adjacent intelligent control module receives order, just all open the illuminating lamp of its region.After this standard-sized sheet order sends, transmitted by the mode of relay, if the MCU control module with an intelligent control module detects that the RS485 bus connecting its two ends has standard-sized sheet order, illustrate that the MCU control module of its adjacent intelligent control module has all received this order, the MCU control module of this intelligent control module stops sending order.Equally, complete shut-down order can realize in the same way.

To those skilled in the art, obviously the invention is not restricted to the details of above-mentioned one exemplary embodiment, and when not deviating from spirit of the present invention or essential characteristic, the present invention can be realized in other specific forms.Therefore, no matter from which point, all should embodiment be regarded as exemplary, and be nonrestrictive, scope of the present invention is limited by claims instead of above-mentioned explanation, and all changes be therefore intended in the implication of the equivalency by dropping on claim and scope are included in the present invention.Any Reference numeral in claim should be considered as the claim involved by limiting.

In addition, be to be understood that, although this specification is described according to execution mode, but not each execution mode only comprises an independently technical scheme, this narrating mode of specification is only for clarity sake, those skilled in the art should by specification integrally, and the technical scheme in each embodiment also through appropriately combined, can form other execution modes that it will be appreciated by those skilled in the art that.

Claims (6)

1. a garage intelligent lighting system, comprise several by the interconnective intelligent control module of RS485 bus, microwave remote sensor and illuminating lamp, each intelligent control module comprises MCU control module, power supply and communication module, MCU control module is connected with power supply with communication module respectively, be interconnected by RS485 bus between communication module, it is characterized in that, described intelligent control module also comprises the first input module, the second input module, the first output module and the second output module; First input module one end is connected with MCU control module, and the other end is connected with a microwave remote sensor, and second input module one end is connected with MCU control module, and the other end is connected with another microwave remote sensor; First output module one end is connected with MCU control module, and the other end is connected with an illuminating lamp, and second output module one end is connected with MCU control module, and the other end is connected with another illuminating lamp.

2. garage according to claim 1 intelligent lighting system, is characterized in that, described MCU model is STC15F2K60S2_QFP44.

3. garage according to claim 1 intelligent lighting system, it is characterized in that, described first input module comprises optocoupler PC817 and resistance R1, resistance R1 one end connects 12V positive source, the resistance R1 other end connects optocoupler PC817 transmitting terminal positive pole, and optocoupler PC817 transmitting terminal negative pole connects a microwave remote sensor, optocoupler PC817 receiving terminal minus earth, optocoupler PC817 receiving terminal positive pole respectively contact resistance R2 and MCU pin INI 1, the resistance R2 other end connects 5V positive source.

4. garage according to claim 1 intelligent lighting system, it is characterized in that, described second input module comprises optocoupler PC817 and resistance R3, resistance R3 one end connects 12V positive source, the resistance R3 other end connects optocoupler PC817 transmitting terminal positive pole, and optocoupler PC817 transmitting terminal negative pole connects another microwave remote sensor, optocoupler PC817 receiving terminal minus earth, optocoupler PC817 receiving terminal positive pole respectively contact resistance R4 and MCU pin INI2, the resistance R4 other end connects 5V positive source.

5. garage according to claim 1 intelligent lighting system, it is characterized in that, described first output module comprises bidirectional triode thyristor BTA1 and chip MOC3021, chip MOC3021 pin 1 contact resistance R16, resistance R16 other end connecting triode Q1 collector electrode, triode Q1 base stage connects MCU pin OUT1 by resistance R19, triode Q1 emitter connects 5V positive source, described chip MOC3021 pin 2 ground connection, chip MOC3021 pin 4 respectively contact resistance R18 and bidirectional triode thyristor BTA1 controls pole, the resistance R18 other end connects the T1 pole of connector P5 pin 1 and bidirectional triode thyristor BTA1 respectively, plug-in unit P5 pin 2 connects 220V alternating current zero line, the T2 pole of described bidirectional triode thyristor BTA1 connects 220V alternating current fire wire and resistance R15 respectively, the resistance R15 other end connects chip MOC3021 pin 6, connector P5 is connected with an illuminating lamp.

6. garage according to claim 1 intelligent lighting system, it is characterized in that, described second output module comprises bidirectional triode thyristor BTA2 and chip MOC3021, chip MOC3021 pin 1 contact resistance R21, resistance R21 other end connecting triode Q2 collector electrode, triode Q2 base stage connects MCU pin OUT2 by resistance R19, triode Q2 emitter connects 5V positive source, described chip MOC3021 pin 2 ground connection, chip MOC3021 pin 4 respectively contact resistance R23 and bidirectional triode thyristor BTA1 controls pole, the resistance R23 other end connects the T1 pole of connector P7 pin 1 and bidirectional triode thyristor BTA2 respectively, plug-in unit P7 pin 2 connects 220V alternating current zero line, the T2 pole of described bidirectional triode thyristor BTA2 connects 220V alternating current fire wire and resistance R20 respectively, the resistance R20 other end connects chip MOC3021 pin 6, connector P7 is connected with another illuminating lamp.