CN203368853U - Solar LED light wireless sensing system - Google Patents

Abstract

The utility model relates to a solar LED light wireless sensing system. The system comprises a master control LED light and a plurality of slave LED lights. The master control LED light is composed of a master control circuit, a first photovoltaic device, a first light control device, a body sensing device, a first wireless sending and receiving device and a first LED light. Each slave LED light is composed of a slave control circuit, a second photovoltaic device, a second light control device, a second wireless sending and receiving device and a second LED light. The master control LED light and the slave LED lights are connected wirelessly via the first and the second wireless sending and receiving devices. Via the above way, the system integrates the photovoltaic devices, light sensing devices, the body sensing device and the wireless sending and receiving devices with the LED lights reasonably and perfectly. The system is energy-saving and green without any pollution. Besides, the master control LED light and each of the slave LED lights are installed separately with no need of wiring; the installation is simple, convenient, flexible, considerate, and cheap; the control is intelligent; and the wireless connection between the lights is strong in anti-interference capability, and allows long-distance connection.

Description

Wireless induction system of solar LED lamp

Technical Field

The utility model belongs to the technical field of the lawn lamp, especially, relate to a wireless induction system of solar energy LED lamp.

Background

At present, when the existing lawn lamp is installed, an electric wire circuit is arranged at a pre-installation position in advance, and the commercial power is directly used as a working power supply, so that the existing lawn lamp has the following defects:

firstly, the installation of the circuit to be laid is complex and inflexible, the cost is higher, the installation and the future repair are extremely inconvenient and time-consuming, and the longer the circuit is, the larger the electric energy consumption is, the energy waste is caused, and the circuit is not environment-friendly;

secondly, the solar energy collector is directly connected with commercial power to serve as a working power supply, and does not have the capacity of converting solar energy into electric energy for utilization;

and the intelligent charging and discharging management control system is not available, the operation is unstable, and the battery is easy to overcharge or have short service life.

SUMMERY OF THE UTILITY MODEL

For solving the above-mentioned problem that exists among the prior art, the utility model provides a rationally perfectly combine photovoltaic device, light sense device, human induction system and wireless transceiver and LED lamp together, energy-concerving and environment-protective, pollution-free, the installation is simple, convenient, nimble, humanized, with low costs, intelligent control's wireless induction system of solar energy LED lamp.

In order to solve the technical problem, the utility model adopts the following technical scheme:

a wireless induction system of solar LED lamps comprises a main control LED lamp and more than one sub LED lamp; wherein,

the main control LED lamp mainly comprises a main control circuit, a first photovoltaic device, a first light control device, a human body induction device, a first wireless transceiver and a first LED lamp, wherein the first photovoltaic device, the first light control device, the human body induction device and the first wireless transceiver are all in conductive connection with the main control circuit, and the first LED lamp is in conductive connection with the first photovoltaic device;

the sub LED lamp mainly comprises a sub control circuit, a second photovoltaic device, a second light control device, a second wireless transceiver and a second LED lamp, wherein the second photovoltaic device, the second light control device and the second wireless transceiver are all in conductive connection with the sub control circuit, and the second LED lamp is in conductive connection with the second photovoltaic device;

and the main control LED lamp is wirelessly connected with the sub LED lamps through the first wireless transceiver and the second wireless transceiver.

Furthermore, the first photovoltaic device and the second photovoltaic device respectively comprise a photovoltaic panel, a charging and discharging circuit and a storage battery which are sequentially connected in a conduction mode, the main control circuit is connected with the charging and discharging circuit of the first photovoltaic device in a conduction mode, and the sub-control circuit is connected with the charging and discharging circuit of the second photovoltaic device in a conduction mode.

Further, the human body sensing device is a PIR sensor, and the photovoltaic panel is a crystalline silicon solar panel.

The utility model has the advantages that:

through the technical scheme, the utility model reasonably and perfectly integrates the photovoltaic device, the light sensation device, the human body induction device, the wireless receiving and sending device and the LED lamp, thereby being more energy-saving, green and environment-friendly, free from pollution, and effectively prolonging the power supply time and the service life of the battery; the master control LED lamp and each sub LED lamp are independent lighting lamps, are independently installed without wiring, are connected through a wireless transceiver, have strong anti-interference capability, are long in distance and free of installation limitation, can simultaneously control a plurality of sub LED lamps, and are simple, convenient, flexible, more humanized and low in installation cost; and the master control LED lamp only can be turned on after receiving the turn-on signals of the first light control device and the human body induction device at the same time, and similarly, each sub-LED lamp only can be turned on after receiving the turn-on signals of the master control LED lamp and the second light control device at the same time, so that the intelligent control is realized, and the energy conservation and the environmental protection are realized.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of a wireless induction system for a solar LED lamp according to the present invention;

fig. 2 is a schematic block diagram of a structural principle of an embodiment of the wireless sensing system of the solar LED lamp according to the present invention;

fig. 3 is a schematic circuit diagram of a master LED lamp in an embodiment of the wireless sensing system for solar LED lamps according to the present invention;

fig. 4 is a schematic circuit diagram of a main LED lamp and a sub LED lamp in an embodiment of the wireless sensing system of the solar LED lamp.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

As shown in figures 1 to 4 of the drawings,

the embodiment of the utility model provides a wireless induction system of solar energy LED lamp, including master control LED lamp 1 and more than one sub-LED lamp 2. The main control LED lamp 1 mainly comprises a main control circuit 11, a first photovoltaic device 12, a first light control device 13, a human body induction device 14, a first wireless transceiver 15 and a first LED lamp 16, wherein the first photovoltaic device 12, the first light control device 13, the human body induction device 14 and the first wireless transceiver 15 are all in conductive connection with the main control circuit 11, and the first LED lamp 15 is in conductive connection with the first photovoltaic device 12; the first photovoltaic device 12 comprises a photovoltaic panel, a charging and discharging circuit and a storage battery which are sequentially connected in a conducting manner, and the main control circuit 11 is connected with the charging and discharging circuit of the first photovoltaic device 12 in a conducting manner; the human body sensing device 13 is a PIR sensor, and the photovoltaic panel is a crystalline silicon solar panel. The sub-LED lamp 2 mainly comprises a sub-control circuit 21, a second photovoltaic device 22, a second light control device 23, a second wireless transceiver 24 and a second LED lamp 25, wherein the second photovoltaic device 22, the second light control device 23 and the second wireless transceiver 24 are all in conductive connection with the sub-control circuit 21, and the second LED lamp 25 is in conductive connection with the second photovoltaic device 22; the second photovoltaic device 22 includes a photovoltaic panel, a charging and discharging circuit and a storage battery which are sequentially connected, and the sub-control circuit 21 is connected with the charging and discharging circuit of the second photovoltaic device 22. Moreover, the main control LED lamp 1 is wirelessly connected with the sub LED lamp 2 through a first wireless transceiver 15 and a second wireless transceiver 24; the photovoltaic panel is a crystalline silicon solar panel; the processing chips of the main control circuit 11 and the sub-control circuit 21 have a delay closing function (delay time is about 30 seconds).

Wireless induction system of solar energy LED lamp's theory of operation do: firstly, in daytime, the main control LED lamp 1 and the sub LED lamp 2 convert light energy into electric energy through the photovoltaic panels of the first photovoltaic device 12 and the second photovoltaic device 22 respectively and then are charged into a storage battery through a charging and discharging circuit; then, at night, the first light control device 13 of the main control LED lamp 1 and the second light control device 23 of the sub LED lamp 2 respectively send a turn-on signal to the main control circuit 11 and the sub control circuit 21, and if the human body induction device 14 of the main control LED lamp 1 induces that a person passes through, the turn-on signal is sent to the main control circuit 11; then, the main control circuit 11 controls the charging and discharging circuit of the first photovoltaic device 12 to output a working power to the first LED lamp 16 according to the turn-on signal transmitted by the first light control device 13 and the human body sensing device 14, so that the first LED lamp 16 is turned on, and simultaneously, the turn-on signal of the human body sensing device 14 is transmitted to the sub LED lamp 2 through the first wireless transceiver 15; finally, the sub-LED lamp 2 receives the start signal sent by the main control LED lamp 1 through the second wireless transceiver 24 and then transmits the start signal to the sub-control circuit 21, and the sub-control circuit 21 controls the charge and discharge circuit of the second photovoltaic device 22 to output a working power supply to the second LED lamp 25 according to the start signal and the charge and discharge circuit transmitted by the second light control device 23, so that the second LED lamp 25 is turned on.

Thus, the utility model reasonably and perfectly integrates the photovoltaic device, the light sensation device, the human body induction device, the wireless receiving and sending device and the LED lamp into a whole, thereby forming a novel intelligent LED lamp system, leading the novel intelligent LED lamp system to be more energy-saving, green, pollution-free, and effectively prolonging the power supply time and the service life of the battery; the main control LED lamp 1 and each sub LED lamp 2 are independent lighting lamps and are independently installed without wiring, the main control LED lamp 1 and each sub LED lamp 2 are connected through a wireless transceiver, the anti-interference capability is strong, the distance is long, the installation limit is avoided, a plurality of sub LED lamps 2 can be simultaneously controlled, the installation is simple, convenient and flexible, the humanization is realized, and the installation cost is low; and master control LED lamp 1 must receive the turn-on signal of first light-operated device 13 and human induction system 14 simultaneously just to light and open, and like the same, every sub-LED lamp 2 must receive the turn-on signal of master control LED lamp 1 and second light-operated device 23 simultaneously just to light and open, does not light when daytime and nobody pass through promptly and opens, intelligent control, more energy-concerving and environment-protective.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims (3)

1. The utility model provides a wireless induction system of solar energy LED lamp which characterized in that: comprises a main control LED lamp (1) and more than one sub LED lamp (2); wherein,

the master control LED lamp (1) mainly comprises a master control circuit (11), a first photovoltaic device (12), a first light control device (13), a human body induction device (14), a first wireless transceiver device (15) and a first LED lamp (16), wherein the first photovoltaic device (12), the first light control device (13), the human body induction device (14) and the first wireless transceiver device (15) are all in conductive connection with the master control circuit (11), and the first LED lamp (15) is in conductive connection with the first photovoltaic device (12);

the sub LED lamp (2) mainly comprises a sub control circuit (21), a second photovoltaic device (22), a second light control device (23), a second wireless transceiver (24) and a second LED lamp (25), wherein the second photovoltaic device (22), the second light control device (23) and the second wireless transceiver (24) are all in conductive connection with the sub control circuit (21), and the second LED lamp (25) is in conductive connection with the second photovoltaic device (22);

and the main control LED lamp (1) is wirelessly connected with the sub LED lamp (2) through the first wireless transceiver (15) and the second wireless transceiver (24).

2. The wireless induction system of solar LED lamps according to claim 1, characterized in that: the photovoltaic panel, the charging and discharging circuit and the storage battery are sequentially connected, the main control circuit (11) is connected with the charging and discharging circuit of the first photovoltaic device (12), and the sub-control circuit (21) is connected with the charging and discharging circuit of the second photovoltaic device (22).

3. The wireless induction system of solar LED lamps according to claim 2, characterized in that: the human body induction device (13) is a PIR inductor, and the photovoltaic panel is a crystalline silicon solar panel.

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