CN209643037U - A kind of garden landscape intelligent lighting system - Google Patents

Abstract

The utility model discloses a kind of garden landscape intelligent lighting systems of garden landscape technical field, with battery, controller, the battery is electrically bi-directionally connected with the controller, electrically output connects the battery to the passive pyroelectric infrared detector, electrically output connects the LED drive circuit to the A/D converter amplifying circuit, electrically output connects first lighting unit to the LED drive circuit, the light-electricity complementary controller is electrically bi-directionally connected with the controller, and electrically output connects second lighting unit to light-electricity complementary controller, the utility model incudes the flow of personnel situation at scenic spot by infrared technique, to which intelligent control lighting unit works, it is more energy saving, when solving illumination deficiency using light-electricity complementary technology, using the method for solar energy and mains hybrid as illumination Source, reduces the cost of system, and using effect is good.

Description

A kind of garden landscape intelligent lighting system

Technical field

The utility model discloses a kind of garden landscape intelligent lighting systems, specially garden landscape technical field.

Background technique

Intelligent lighting system is using advanced electromagnetic voltage adjusting and electronic induction technology, and Beijing's Bo Wante science and technology is limited Company is monitored in real time and is tracked to power supply, adjusted to automatic smoothing for platform with public illumination G-BUS system one lattice intelligence The voltage and current amplitude on economize on electricity road improves extra power consumption brought by uncompensated load in lighting circuit, improves power factor (PF), The operating temperature for reducing lamps and lanterns and route reaches the lighting control system of optimization power supply purpose.

For intelligent illuminating system in the application in garden landscape field, electric consumption on lighting amount is huge, usually in the case where nobody, Lighting system is still in open state, causes the waste of very serious resource, for this purpose, we have proposed a kind of garden landscape intelligence Energy lighting control system comes into operation, to solve the above problems.

Utility model content

The purpose of this utility model is to provide a kind of garden landscape intelligent lighting systems, to solve above-mentioned background skill The problem of being proposed in art.

To achieve the above object, the utility model provides the following technical solutions: a kind of garden landscape intelligent lighting controls system System has battery, controller, and the battery is electrically bi-directionally connected with the controller, the garden landscape intelligent lighting Also there is control system passive pyroelectric infrared detector, visible light detection sensor device, A/D converter amplifying circuit, LED to drive Dynamic circuit, the first lighting unit, light-electricity complementary controller, solar panel, signal acquisition processing circuit, illuminance transducer and Second lighting unit, electrically output connects the battery, the visible optical detection sense to the passive pyroelectric infrared detector Device electric output is answered to connect the A/D converter amplifying circuit, the A/D converter amplifying circuit is electrically described in output connection Controller, electrically output connects the A/D converter amplifying circuit to the controller, and the A/D converter amplifying circuit is electrical Output connects the LED drive circuit, and electrically output connects first lighting unit, the photoelectricity to the LED drive circuit Complementary controller is electrically bi-directionally connected with the controller, and electrically output connection second illumination is single for light-electricity complementary controller Member, electrically input connects the illuminance transducer to second lighting unit, and the illuminance transducer is electrically described in output connection Signal acquisition processing circuit, electrically output connects the light-electricity complementary controller, the sun to the signal acquisition processing circuit Energy solar panel is electrically bi-directionally connected with the battery, and electrically output connects the light-electricity complementary control to solar panel Device.

Preferably, the light-electricity complementary controller includes single-chip microcontroller, discharge circuit, charging circuit, relay switch, driving Circuit and time display circuit, the single-chip microcontroller electrically output be separately connected the discharge circuit, the charging circuit, it is described when Between display circuit and the driving circuit, electrically output connects the relay switch for the discharge circuit, and the relay is opened Powered-down property output connects the driving circuit, and electrically output connects second lighting unit, another group of institute to the driving circuit Stating driving circuit, electrically output connects second lighting unit, and driving circuit electrically inputs connection V alternating current, the charging electricity Electrically input is separately connected the solar panel and the battery, the solar panel and battery electricity on road Property output connect the signal acquisition processing circuit, the battery electrical property output end and electrical input are separately connected described put Circuit and the charging circuit.

Preferably, first lighting unit and second lighting unit are all made of 1W white LED lamp, the LED light It is installed on aluminium sheet, the heat release hole that spacing is 0.7mm, the LED light pin and the aluminium sheet is uniformly provided on the aluminium sheet Rear side is connected.

Preferably, it is gone here and there in first lighting unit and each group of series arm of LED light in the second illumination list Join one group of flows resistance, and the type of the first lighting unit and the driver of the second lighting unit driving power is AP- 2B320LED。

Preferably, the model INTEL8051 of the controller, and electrically output connects inverter to controller, it is described inverse Become device electrically output connection A/D converter amplifying circuit.

Compared with prior art, the utility model has the beneficial effects that the utility model is designed reasonably, practical, lead to It crosses in visible light detection sensor device and passive pyroelectric infrared detector detection security area and is moved whether there is or not personnel to play on or off It closes LED light, and is realized by solar panel and light-electricity complementary controller according to using solar energy and alternating current the case where sunshine Complementary method reduces the waste of the energy as light source, more energy saving, and solve cause it is solar powered insufficient scarce Point, reduces the cost of system, and using effect is good.

Detailed description of the invention

Fig. 1 is Tthe utility model system structural schematic diagram；

Fig. 2 is the utility model light-electricity complementary controller architecture block diagram；

Fig. 3 is the utility model LED light mounting structure schematic diagram.

In figure: 1 battery, 2 controllers, 3 passive pyroelectric infrared detectors, 4 visible light detection sensor devices, 5 A/D Converter amplifying circuit, 6 inverters, 7 LED drive circuits, 8 first lighting units, 9 light-electricity complementary controllers, 10 solar energy Solar panel, 11 signal acquisition processing circuits, 12 second lighting units, 13 illuminance transducers, 14 single-chip microcontrollers, 15 charging circuits, 16 Discharge circuit, 17 relay switches, 18 driving circuits, 19 time display circuits, 20 aluminium sheets, 21 LED light, 22 heat release holes.

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

The utility model provides a kind of garden landscape intelligent lighting system, reduces the waste of resource, uses more adduction Reason, it is more energy saving, the use cost of system is also reduced, and highly-safe, referring to Fig. 1, there is battery 1, controller 2, Battery 1 is electrically bi-directionally connected with controller 2, and also there is garden landscape intelligent lighting system passive rpyroelectric infrared to detect Device 3, visible light detection sensor device 4, A/D converter amplifying circuit 5, LED drive circuit 7, the first lighting unit 8, photoelectricity are mutual Controller 9, solar panel 10, signal acquisition processing circuit 11, illuminance transducer 13 and the second lighting unit 12 are mended, passively Electrically output connects battery 1 to pyroelectric infrared detector 3, it is seen that the electrically output connection A/D conversion of optical detection sensing device 4 Device amplifying circuit 5 detects the flow of personnel at scenic spot, and indirect controls lighting unit work, saves the use of electric energy, A/D conversion Electrically output connection controller 2, controller 2 electrically export connection A/D converter amplifying circuit 5, A/D conversion to device amplifying circuit 5 Electrically output connection LED drive circuit 7, LED drive circuit 7 electrically export the first lighting unit 8 of connection, light to device amplifying circuit 5 Electric complementary controller 9 is electrically bi-directionally connected with controller 2, and electrically output connects the second lighting unit to light-electricity complementary controller 9 12, by light-electricity complementary technology, realize the function of solar energy and mains hybrid, solving weather reason leads to solar powered deficiency The shortcomings that, the cost of system is reduced, referring to Fig. 2, light-electricity complementary controller 9 includes single-chip microcontroller 14, discharge circuit 16, charging electricity Road 15, relay switch 17, driving circuit 18 and time display circuit 19, electrically output is separately connected discharge circuit to single-chip microcontroller 14 16, charging circuit 15, time display circuit 19 and driving circuit 18, electrically output connects relay switch 17 to discharge circuit 16, Electrically output connection driving circuit 18, the second lighting unit 12 of electrical output connection of driving circuit 18 are another for relay switch 17 Electrically the second lighting unit 12 of output connection, and the electrical input connection 220V alternating current of driving circuit 18 of group driving circuit 18, charging Electrically input is separately connected solar panel 10 and battery 1 to circuit 15, and solar panel 10 and battery 1 electrically export Connection signal acquisition process circuit 11, the electrical output end of battery 1 and electrical input are separately connected discharge circuit 16 and charging Circuit 15, electrically input connection illuminance transducer 13, illuminance transducer 13 electrically export connection signal and adopt the second lighting unit 12 Collect processing circuit 11, electrically output connects light-electricity complementary controller 9, solar panel and 10 to signal acquisition processing circuit 11 Battery 1 is electrically bi-directionally connected, and electrically output connects light-electricity complementary controller 9 to solar panel 10, referring to Fig. 3, the One lighting unit 8 and the second lighting unit 12 are all made of 1W white LED lamp 21, and LED light 21 is installed on aluminium sheet 20, on aluminium sheet 20 Be uniformly provided with the heat release hole 22 that spacing is 0.7mm, be connected on rear side of 21 pin of LED light and aluminium sheet 20, not only reduced the volume of lamp but also Guarantee biggish heat dissipation area.

Working principle: daytime, solar panel 10 was to the charging of battery 1 in scenic spot, and night is examined when illuminance transducer 13 When surveying the illumination of environment lower than preset value, one group of LED light 21 is always in the second lighting unit 12, when infrared sensor has detected 21 all light of LED light when people passes through, in case of the discharge voltage of continuous rainy weather battery 1 is reduced to presetting in single-chip microcontroller 14 Value, alternating current power to driving circuit 18, and driving circuit 18 drives the work of the second lighting unit 12 to light, while solar battery Plate 10, which synchronizes, charges to battery 1, and battery 1 is supplied by discharge circuit 16 and driving circuit 18 to the second lighting unit 12 Electricity, so that the second lighting unit 12 realizes that solar energy and mains hybrid are powered for it, solution weather reason causes solar powered Insufficient disadvantage, system automatically switches to mains-supplied mode, reduces the cost of system, in passive pyroelectric infrared detector 3 Detecting area in, when no human motion, passive pyroelectric infrared detector 3 sense only ambient temperature, when human body into Enter detecting area, by Fresnel Lenses, what passive pyroelectric infrared detector 3 sensed is human body temperature and ambient temperature Difference signal, it is seen that optical detection sensing device 4 is compared by the various performances to photodetectors such as photoelectric tube, photo resistance Compared with finding the wavelength in the spectrum corresponding peaks of photo resistance relatively people's visual acuity area, when intensity of illumination weakens, accordingly Detectable signal amplification is transmitted to controller 2, the control of controller 2 by A/D converter amplifying circuit 5 by time relative increase Signal is converted via inverter 6 to A/D converter amplifying circuit 5, improves safety, then will by A/D converter amplifying circuit 5 Signal conversion amplification is controlled to LED drive circuit 7, so that control the first lighting unit 8 work, more reasonable single using illumination Member reduces energy consumption, reduces costs, and using effect is good.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (5)

1. a kind of garden landscape intelligent lighting system has battery (1), controller (2), the battery (1) and institute It states controller (2) to be electrically bi-directionally connected, it is characterised in that: also there is the garden landscape intelligent lighting system passive heat to release Electric infrared detector (3), visible light detection sensor device (4), A/D converter amplifying circuit (5), LED drive circuit (7), One lighting unit (8), light-electricity complementary controller (9), solar panel (10), signal acquisition processing circuit (11), illumination pass Sensor (13) and the second lighting unit (12), electrically output connects the battery to the passive pyroelectric infrared detector (3) (1), electrically output connects the A/D converter amplifying circuit (5), the A/D conversion to the visible light detection sensor device (4) Electrically output connects the controller (2) to device amplifying circuit (5), and electrically output connects the A/D converter to the controller (2) Amplifying circuit (5), electrically output connects the LED drive circuit (7) to the A/D converter amplifying circuit (5), and the LED drives Dynamic circuit (7), which electrically export, connects first lighting unit (8), the light-electricity complementary controller (9) and the controller (2) It is electrically bi-directionally connected, and electrically output connects second lighting unit (12), second illumination to light-electricity complementary controller (9) Electrically input connects the illuminance transducer (13) to unit (12), and electrically output connects the signal to the illuminance transducer (13) Acquisition process circuit (11), electrically output connects the light-electricity complementary controller (9), institute to the signal acquisition processing circuit (11) It states solar panel (10) and is electrically bi-directionally connected with the battery (1), and solar panel (10) electrically output connection The light-electricity complementary controller (9).

2. a kind of garden landscape intelligent lighting system according to claim 1, it is characterised in that: the light-electricity complementary Controller (9) includes single-chip microcontroller (14), discharge circuit (16), charging circuit (15), relay switch (17), driving circuit (18) With time display circuit (19), electrically output is separately connected the discharge circuit (16), charging electricity to the single-chip microcontroller (14) Road (15), the time display circuit (19) and the driving circuit (18), electrically output connects institute to the discharge circuit (16) It states relay switch (17), electrically output connects the driving circuit (18), the driving circuit to the relay switch (17) (18) electrically output connects second lighting unit (12), electrical output connection described the of driving circuit described in another group (18) Two lighting units (12), and electrically input connects 220V alternating current, the charging circuit (15) electrically input point to driving circuit (18) Do not connect the solar panel (10) and the battery (1), the solar panel (10) and the battery (1) Electrically output connects the signal acquisition processing circuit (11), the electrical output end of the battery (1) and electrical input difference Connect the discharge circuit (16) and the charging circuit (15).

3. a kind of garden landscape intelligent lighting system according to claim 1, it is characterised in that: first illumination Unit (8) and second lighting unit (12) are all made of 1W white LED lamp (21), and the LED light (21) is installed on aluminium sheet (20) on, the heat release hole (22) that spacing is 0.7mm, LED light (21) pin and institute are uniformly provided on the aluminium sheet (20) It states and is connected on rear side of aluminium sheet (20).

4. a kind of garden landscape intelligent lighting system according to claim 1, it is characterised in that: first illumination It connects in unit (8) and each group of series arm of LED light (21) in second lighting unit (12) one group of flows resistance, And first the type of driver of lighting unit (8) and the second lighting unit (12) driving power be AP-2B320LED.

5. a kind of garden landscape intelligent lighting system according to claim 1, it is characterised in that: the controller (2) model INTEL8051, and controller (2) electrically output connection inverter (6), electrically output connects the inverter (6) Connect A/D converter amplifying circuit (5).