CN116939932A - Portable low-cost intelligent control method for solar street lamp - Google Patents

Abstract

The application discloses an intelligent control method of a solar street lamp, which is convenient to carry and low in cost, and comprises the following steps of: s1, a mobile intelligent terminal establishes wireless communication with a wireless communication unit, and the wireless communication unit establishes wireless communication with an ith street lamp; s2, the mobile intelligent terminal sends a first control command for turning on the lamp to the ith street lamp, the ith street lamp is turned on, the ith street lamp sends a lamp-on command to other street lamps, and after the other street lamps receive the lamp-on command, the other street lamps are turned on; the mobile intelligent terminal sends a first lamp-turning-off control command to the ith street lamp, the ith street lamp is turned off after receiving the first lamp-turning-off control command, the ith street lamp sends a lamp-turning-off command to other street lamps, and the other street lamps are turned off after receiving the lamp-turning-off command. According to the solar street lamp controller, the mobile intelligent terminal is used for controlling the solar street lamp controller, so that the solar street lamp controller is convenient to operate, the experience is greatly improved, and the operation difficulty is reduced.

Description

Portable low-cost intelligent control method for solar street lamp

The application relates to a portable low-cost intelligent control system for a solar street lamp and a method thereof, which are divisional applications of application number 2018109055578, application date 2018, and application name 08-10.

Technical Field

The application relates to the field of solar street lamps, in particular to an intelligent control method of a solar street lamp, which is convenient to carry and low in cost.

Background

At present, the solar street lamp is controlled by manual work, timing or a photosensitive switch, the photosensitive switch is easy to be influenced by pollution and lose effect, the timing switch is inflexible in control modes in different seasons and special weather, and the control and management inconvenience is brought due to the wide distribution region of the solar street lamp. The control interface of the existing hand-held remote control device is not visual, can only be controlled singly, has serious energy waste and high fault inspection cost, and is troublesome to maintain and repair. At present, a simple LORA mode cannot be used on a large scale due to imperfect domestic base stations, communication is carried out through a telecommunication operator network, and each controller is provided with a communication module due to the large number of street lamps, so that the cost is quite high. In the infrared remote control mode, the signal receiving distance is short, and the control can be realized only by short-distance contact during use.

Disclosure of Invention

In order to overcome the defects in the prior art, the application aims to provide the intelligent control method for the solar street lamp, which is convenient to carry, low in cost and convenient to carry.

In order to achieve the above purpose, the application provides a portable and low-cost intelligent control system for solar street lamps, which comprises a mobile intelligent terminal, a wireless communication unit and N street lamps, wherein N is a positive integer;

the mobile intelligent terminal comprises a first Bluetooth module and a mobile terminal controller, and a data receiving and transmitting end of the mobile terminal controller is connected with a data receiving and transmitting end of the first Bluetooth module;

the wireless communication unit comprises a first controller, a second Bluetooth module and a first LORA module, wherein the data receiving and transmitting end of the second Bluetooth module is connected with the Bluetooth data receiving and transmitting end of the first controller, and the LORA data receiving and transmitting end of the first controller is connected with the data receiving and transmitting end of the first LORA module;

the street lamp comprises a street lamp controller and a second LORA module, wherein a data receiving and transmitting end of the street lamp controller is connected with a data receiving and transmitting end of the second LORA module;

the mobile intelligent terminal sends first data to be sent in the mobile intelligent terminal to the wireless communication unit through the first Bluetooth module, the wireless communication unit receives the first data sent by the mobile intelligent terminal through the second Bluetooth module, the wireless communication unit sends the received first data to the street lamp through the first LORA module, and the street lamp receives the first data sent by the wireless communication unit through the first LORA module;

the street lamp sends second data to be sent in the street lamp to the wireless communication unit through the second LORA module, the wireless communication unit receives the second data sent by the street lamp through the first LORA module, the wireless communication unit sends the received second data to the mobile intelligent terminal through the second Bluetooth module, and the mobile intelligent terminal receives the second data sent by the wireless communication unit through the first Bluetooth module.

The mobile intelligent terminal is communicated with the street lamp through the wireless communication unit serving as bridging, the LORA module is adopted in the street lamp, the module is low in price and far lower than an operator communication module, and the mobile intelligent terminal can be carried about by only using one Bluetooth module and one LORA module in the wireless communication unit, so that the cost is greatly reduced, the flexibility and the control range are increased, and the user experience is improved.

In a preferred embodiment of the present application, the mobile smart terminal is a mobile phone, tablet or notebook. The mobile phone, the tablet or the notebook is light and portable.

In a preferred embodiment of the present application, the street lamp controllers have unique ID information, and the mobile intelligent terminal stores ID information of each street lamp controller.

In a preferred embodiment of the application, the system comprises two modes of operation, one-to-one and one-to-many;

when the mobile intelligent terminal is in a one-to-one working mode, after receiving data, the mobile intelligent terminal verifies the ID information of the street lamp controller in the data; when the mobile intelligent terminal sends an instruction, the instruction comprises ID information of a street lamp controller appointed to be received, when the street lamp controller receives the instruction, the ID information of the street lamp controller in the instruction is verified, if the ID information is the same as the self ID information, the instruction is executed, and if the ID information is not the same as the self ID information, the instruction is discarded;

when the mobile intelligent terminal is in a pair of multi-working modes, the instructions transmitted by the mobile intelligent terminal do not contain ID information of the street lamp controllers, and all the street lamp controllers receive and instruct corresponding instructions. This allows the system to monitor and control for a particular street light controller, as well as for all street light controllers in a certain area.

In a preferred embodiment of the present application, the first LOAR module includes a first receiving module and a first transmitting module, and the second LORA module includes a second receiving module and a second transmitting module;

the data output end of the first receiving module is connected with the LORA data input end of the first controller, and the LORA data output end of the first controller is connected with the data input end of the first transmitting module; the data transmitting end of the first transmitting module is connected with the data receiving end of the second receiving module, the data output end of the second receiving module is connected with the data input end of the street lamp controller, the data output end of the street lamp controller is connected with the data input end of the second transmitting module, and the transmitting end of the second transmitting module is connected with the receiving end of the first receiving module;

or/and the first Bluetooth module comprises a first Bluetooth receiving module and a first Bluetooth transmitting module, and the second Bluetooth module comprises a second Bluetooth receiving module and a second Bluetooth transmitting module;

the data output end of the second Bluetooth receiving module is connected with the Bluetooth data input end of the first controller, and the Bluetooth data output end of the first controller is connected with the data input end of the second Bluetooth transmitting module; the data transmitting end of the second Bluetooth transmitting module is connected with the data receiving end of the first Bluetooth receiving module, the data output end of the first Bluetooth receiving module is connected with the data input end of the mobile intelligent terminal, the data output end of the mobile intelligent terminal is connected with the data input end of the first Bluetooth transmitting module, and the transmitting end of the first Bluetooth transmitting module is connected with the receiving end of the second Bluetooth receiving module. When the mobile intelligent terminal communicates with the street lamp, signal receiving and sending are smoother, and congestion is prevented.

In a preferred embodiment of the present application, the system further includes a cloud server, where the cloud server includes a cloud controller and a first network connection module, and a data transceiver of the cloud controller is connected to a data transceiver of the first network connection module;

the mobile intelligent terminal also comprises a second network connection module, and a data receiving and transmitting end of the second network connection module is connected with a network data receiving and transmitting end of the mobile terminal controller;

the mobile intelligent terminal sends third data to the cloud server through the second network connection module, and the cloud server receives the third data sent by the mobile intelligent terminal through the first network connection module;

the cloud server sends fourth data to the mobile intelligent terminal through the first network connection module, and the mobile intelligent terminal receives the fourth data sent by the cloud server through the second network connection module. The cloud server is communicated with the mobile intelligent terminal, receives data of the cloud server, and knows street lamp conditions in real time.

In a preferred embodiment of the present application, the wireless communication unit further includes a third network connection module, and a data transceiver of the third network connection module is connected to a data transceiver of the first controller;

the mobile intelligent terminal sends fifth data to be sent in the mobile intelligent terminal to the wireless communication unit through the first Bluetooth module, the wireless communication unit receives the fifth data sent by the mobile intelligent terminal through the second Bluetooth module, the wireless communication unit sends the received fifth data to the cloud server through the third network connection module, and the cloud server receives the fifth data sent by the wireless communication unit through the first network connection module; the cloud server sends sixth data to be sent in the cloud server to the wireless communication unit through the first network connection module, the wireless communication unit receives the sixth data sent by the cloud server through the third network connection module, the wireless communication unit sends the received sixth data to the mobile intelligent terminal through the second Bluetooth module, and the mobile intelligent terminal receives the sixth data sent by the wireless communication unit through the first Bluetooth module. And the wireless communication unit is used as bridging, so that the mobile intelligent terminal, the cloud server and the street lamp are communicated, the cost is saved, and the customer experience is enhanced.

In a preferred embodiment of the application, the first network connection module or/and the second network connection module or/and the third network connection module is/are a GPRS, 3G, 4G or WIFI module.

In a preferred embodiment of the present application, the system further includes a cloud server, where the cloud server includes a cloud controller and a third LORA module, and a LORA data transceiver of the cloud controller is connected to a data transceiver of the third LORA module;

the mobile intelligent terminal sends seventh data to be sent in the mobile intelligent terminal to the wireless communication unit through the first Bluetooth module, the wireless communication unit receives the seventh data sent by the mobile intelligent terminal through the second Bluetooth module, the wireless communication unit sends the received seventh data to the cloud server through the first LORA module, and the cloud server receives the seventh data sent by the wireless communication unit through the third LORA module; the cloud server sends eighth data to be sent in the cloud server to the wireless communication unit through the third LORA module, the wireless communication unit receives the eighth data sent by the cloud server through the first LORA module, the wireless communication unit sends the received eighth data to the mobile intelligent terminal through the second Bluetooth module, and the mobile intelligent terminal receives the eighth data sent by the wireless communication unit through the first Bluetooth module; and the communication between the street lamp and the cloud server is realized.

Or the mobile intelligent terminal sends the ninth data to be sent in the mobile intelligent terminal to the wireless communication unit through the first Bluetooth module, the wireless communication unit receives the ninth data sent by the mobile intelligent terminal through the second Bluetooth module, the wireless communication unit sends the received ninth data to the street lamp through the first LORA module, the street lamp receives the ninth data sent by the wireless communication unit through the first LORA module, the street lamp sends the received ninth data to the cloud server, and the cloud server receives the ninth data sent by the street lamp through the third LORA module; the cloud server sends tenth data to be sent in the cloud server to the street lamp through the third LORA module, the street lamp receives the tenth data sent by the cloud server through the second LORA module, the street lamp sends the received tenth data to the wireless communication unit through the second LORA module, the wireless communication unit receives the tenth data sent by the street lamp through the first LORA module, the wireless communication unit sends the received tenth data to the mobile intelligent terminal through the second Bluetooth module, and the mobile intelligent terminal receives the tenth data sent by the wireless communication unit through the first Bluetooth module.

In a preferred embodiment of the present application, the mobile intelligent terminal is in communication connection with the cloud server, the PC terminal is in communication connection with the cloud server, the mobile intelligent terminal sends information to the cloud server, the PC terminal reads the information of the cloud server and can send an instruction to the mobile intelligent terminal through the cloud server, and the mobile intelligent terminal executes the instruction. When the field personnel cannot solve the fault, the professional technician can search through the PC terminal to solve the fault.

The application also discloses an intelligent control method of the street lamp, which comprises the following steps:

s1, establishing wireless communication between a mobile intelligent terminal and a wireless communication unit, wherein the wireless communication unit establishes wireless communication with an ith street lamp, and i is a street lamp serial number and is a positive integer not more than N;

s2, the mobile intelligent terminal sends a first lamp-on control command to the ith street lamp, the first lamp-on control command comprises a lamp-on command sent to other street lamps, the ith street lamp is turned on after receiving the first lamp-on control command, the ith street lamp sends a lamp-on command to the other street lamps, and the other street lamps are turned on after receiving the lamp-on command; the mobile intelligent terminal sends a first lamp-turning-off control command to the ith street lamp, the first lamp-turning-off control command comprises a lamp-turning-off command sent to other street lamps, the ith street lamp is turned off after receiving the first lamp-turning-off control command, the ith street lamp sends a lamp-turning-off command to the other street lamps, and the other street lamps are turned off after receiving the lamp-turning-off command; and all street lamps of the one-key controller of the mobile intelligent terminal are turned on or off, so that the control is convenient.

The mobile intelligent terminal sends a second control command for turning on the lamp to the ith street lamp, wherein the second control command for turning on the lamp comprises a command for not sending the lamp to other street lamps, and the ith street lamp is turned on after receiving the second control command for turning on the lamp; the mobile intelligent terminal sends a second lamp-turning-off control command to the ith street lamp, wherein the second lamp-turning-off control command comprises a lamp-turning-off command which is not sent to other street lamps, and the ith street lamp is turned off after receiving the second lamp-turning-off control command; the mobile intelligent terminal lights up or extinguishes a specified street lamp, so that detection is convenient.

S3, the mobile intelligent terminal sends street lamp voltage signals to all street lamps, and if the voltage of a j-th street lamp is smaller than a first voltage threshold or larger than a second voltage threshold, j is a street lamp serial number and is a positive integer not larger than N, and the second voltage threshold is larger than the first voltage threshold, a j-th street lamp voltage alarm signal is sent out on the mobile intelligent terminal; detecting whether a certain street lamp voltage has a problem or not, and timely informing a customer of solving the problem.

The mobile intelligent terminal sends a street lamp current signal to all street lamps, and if the current of a j-th street lamp is smaller than a first current threshold or larger than a second current threshold, j is a street lamp serial number and is a positive integer not larger than N, and the second current threshold is larger than the first current threshold, a j-th street lamp current alarm signal is sent on the mobile intelligent terminal; and detecting whether a problem occurs in a certain street lamp current or not, and solving the problem in time.

S4, when the mobile intelligent terminal sends a lighting command to all the street lamps, if a certain street lamp is not lighted, the street lamp controller sends ID information of the unlit street lamp to the mobile intelligent terminal, and the mobile intelligent terminal searches the geographic position bound by the unlit street lamp; and simultaneously positioning the geographic position of the mobile intelligent terminal, and planning one or more routes from the intelligent terminal to the unlit street lamp; and the experience of the clients is improved, and the road conditions are known in time.

When the mobile intelligent terminal sends a turn-off command to all the street lamps, if a certain street lamp is not turned off, the street lamp controller sends ID information of the non-turned-off street lamp to the mobile intelligent terminal, and the mobile intelligent terminal searches the geographic position bound by the non-turned-off street lamp; and simultaneously positioning the geographic position of the mobile intelligent terminal, and planning one or more routes from the intelligent terminal to the non-extinguished street lamp.

The beneficial effects of the application are as follows:

1. the application monitors and controls a specific solar street lamp, and can monitor and control all solar street lamps in a certain area.

2. The application adopts the LORA module in the street lamp, the cost of the module is far lower than that of an operator communication module and a Bluetooth module, and only one Bluetooth module and one LORA module are used in the wireless communication unit, so that the street lamp can be carried about, the cost is greatly reduced, and the flexibility and the control range are increased.

3. According to the solar street lamp controller, the mobile intelligent terminal is used for controlling the solar street lamp controller, so that the solar street lamp controller is convenient to operate, the experience is greatly improved, and the operation difficulty is reduced.

4. After the application is adopted, when the field personnel cannot solve the fault, the professional personnel can search and solve the fault through the PC end.

Drawings

Fig. 1 is a schematic block diagram of the connection of the present application.

FIG. 2 is a circuit diagram of an STM32 chip.

Detailed Description

Embodiments of the present application are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the application.

The application provides a portable and low-cost intelligent control system for solar street lamps, which is shown in fig. 1 and comprises a mobile intelligent terminal, a wireless communication unit and N street lamps, wherein N is a positive integer. In this embodiment, the mobile intelligent terminal is a mobile phone, a tablet or a notebook.

The mobile intelligent terminal comprises a first Bluetooth module and a mobile terminal controller, and a data receiving and transmitting end of the mobile terminal controller is connected with a data receiving and transmitting end of the first Bluetooth module;

the wireless communication unit comprises a first controller, a second Bluetooth module and a first LORA module, wherein the data receiving and transmitting end of the second Bluetooth module is connected with the Bluetooth data receiving and transmitting end of the first controller, and the LORA data receiving and transmitting end of the first controller is connected with the data receiving and transmitting end of the first LORA module;

the street lamp comprises a street lamp controller and a second LORA module, wherein a data receiving and transmitting end of the street lamp controller is connected with a data receiving and transmitting end of the second LORA module;

the mobile intelligent terminal sends first data to be sent in the mobile intelligent terminal to the wireless communication unit through the first Bluetooth module, the wireless communication unit receives the first data sent by the mobile intelligent terminal through the second Bluetooth module, the wireless communication unit sends the received first data to the street lamp through the first LORA module, and the street lamp receives the first data sent by the wireless communication unit through the first LORA module;

the street lamp sends second data to be sent in the street lamp to the wireless communication unit through the second LORA module, the wireless communication unit receives the second data sent by the street lamp through the first LORA module, the wireless communication unit sends the received second data to the mobile intelligent terminal through the second Bluetooth module, and the mobile intelligent terminal receives the second data sent by the wireless communication unit through the first Bluetooth module.

In a preferred embodiment of the application, the street lamp controllers have unique ID information, and the mobile intelligent terminal stores the ID information of each street lamp controller.

In a preferred embodiment of the application, the system comprises two modes of operation, one-to-one and one-to-many;

when the mobile intelligent terminal is in the one-to-one working mode, after receiving the data, the mobile intelligent terminal verifies the ID information of the street lamp controller in the data; when the mobile intelligent terminal sends an instruction, the instruction comprises ID information of a street lamp controller appointed to be received, when the street lamp controller receives the instruction, the ID information of the street lamp controller in the instruction is verified, if the ID information is the same as the self ID information, the instruction is executed, and if the ID information is not the same as the self ID information, the instruction is discarded;

when the mobile intelligent terminal is in a pair of multi-working modes, the instructions transmitted by the mobile intelligent terminal do not contain ID information of the street lamp controllers, and all the street lamp controllers receive and instruct corresponding instructions.

In a preferred embodiment of the present application, the first LOAR module includes a first receiving module and a first transmitting module, and the second LORA module includes a second receiving module and a second transmitting module;

the data output end of the first receiving module is connected with the LORA data input end of the first controller, and the LORA data output end of the first controller is connected with the data input end of the first transmitting module; the data transmitting end of the first transmitting module is connected with the data receiving end of the second receiving module, the data output end of the second receiving module is connected with the data input end of the street lamp controller, the data output end of the street lamp controller is connected with the data input end of the second transmitting module, and the transmitting end of the second transmitting module is connected with the receiving end of the first receiving module;

or/and the first Bluetooth module comprises a first Bluetooth receiving module and a first Bluetooth transmitting module, and the second Bluetooth module comprises a second Bluetooth receiving module and a second Bluetooth transmitting module;

the data output end of the second Bluetooth receiving module is connected with the Bluetooth data input end of the first controller, and the Bluetooth data output end of the first controller is connected with the data input end of the second Bluetooth transmitting module; the data transmitting end of the second Bluetooth transmitting module is connected with the data receiving end of the first Bluetooth receiving module, the data output end of the first Bluetooth receiving module is connected with the data input end of the mobile intelligent terminal, the data output end of the mobile intelligent terminal is connected with the data input end of the first Bluetooth transmitting module, and the transmitting end of the first Bluetooth transmitting module is connected with the receiving end of the second Bluetooth receiving module.

In a preferred embodiment of the present application, the system further includes a cloud server, the cloud server includes a cloud controller and a first network connection module, and a data transceiver of the cloud controller is connected to a data transceiver of the first network connection module;

the mobile intelligent terminal also comprises a second network connection module, and a data receiving and transmitting end of the second network connection module is connected with a network data receiving and transmitting end of the mobile terminal controller;

the mobile intelligent terminal sends third data to the cloud server through the second network connection module, and the cloud server receives the third data sent by the mobile intelligent terminal through the first network connection module;

the cloud server sends fourth data to the mobile intelligent terminal through the first network connection module, and the mobile intelligent terminal receives the fourth data sent by the cloud server through the second network connection module.

In a preferred embodiment of the present application, the wireless communication unit further includes a third network connection module, and a data transceiver of the third network connection module is connected to a data transceiver of the first controller;

the mobile intelligent terminal sends fifth data to be sent in the mobile intelligent terminal to the wireless communication unit through the first Bluetooth module, the wireless communication unit receives the fifth data sent by the mobile intelligent terminal through the second Bluetooth module, the wireless communication unit sends the received fifth data to the cloud server through the third network connection module, and the cloud server receives the fifth data sent by the wireless communication unit through the first network connection module; the cloud server sends sixth data to be sent in the cloud server to the wireless communication unit through the first network connection module, the wireless communication unit receives the sixth data sent by the cloud server through the third network connection module, the wireless communication unit sends the received sixth data to the mobile intelligent terminal through the second Bluetooth module, and the mobile intelligent terminal receives the sixth data sent by the wireless communication unit through the first Bluetooth module;

in a preferred embodiment of the application, the first network connection module or/and the second network connection module or/and the third network connection module is/are a GPRS, 3G, 4G or WIFI module.

In a preferred embodiment of the present application, the system further includes a cloud server, the cloud server includes a cloud controller and a third LORA module, and a LORA data transceiver of the cloud controller is connected to a data transceiver of the third LORA module;

the mobile intelligent terminal sends seventh data to be sent in the mobile intelligent terminal to the wireless communication unit through the first Bluetooth module, the wireless communication unit receives the seventh data sent by the mobile intelligent terminal through the second Bluetooth module, the wireless communication unit sends the received seventh data to the cloud server through the first LORA module, and the cloud server receives the seventh data sent by the wireless communication unit through the third LORA module; the cloud server sends eighth data to be sent in the cloud server to the wireless communication unit through the third LORA module, the wireless communication unit receives the eighth data sent by the cloud server through the first LORA module, the wireless communication unit sends the received eighth data to the mobile intelligent terminal through the second Bluetooth module, and the mobile intelligent terminal receives the eighth data sent by the wireless communication unit through the first Bluetooth module;

or the mobile intelligent terminal sends the ninth data to be sent in the mobile intelligent terminal to the wireless communication unit through the first Bluetooth module, the wireless communication unit receives the ninth data sent by the mobile intelligent terminal through the second Bluetooth module, the wireless communication unit sends the received ninth data to the street lamp through the first LORA module, the street lamp receives the ninth data sent by the wireless communication unit through the first LORA module, the street lamp sends the received ninth data to the cloud server, and the cloud server receives the ninth data sent by the street lamp through the third LORA module; the cloud server sends tenth data to be sent in the cloud server to the street lamp through the third LORA module, the street lamp receives the tenth data sent by the cloud server through the second LORA module, the street lamp sends the received tenth data to the wireless communication unit through the second LORA module, the wireless communication unit receives the tenth data sent by the street lamp through the first LORA module, the wireless communication unit sends the received tenth data to the mobile intelligent terminal through the second Bluetooth module, and the mobile intelligent terminal receives the tenth data sent by the wireless communication unit through the first Bluetooth module.

The application also discloses an intelligent control method of the street lamp, which comprises the following steps:

s1, establishing wireless communication between a mobile intelligent terminal and a wireless communication unit, wherein the wireless communication unit establishes wireless communication with an ith street lamp, and i is a street lamp serial number and is a positive integer not more than N;

s2, the mobile intelligent terminal sends a first lamp-on control command to the ith street lamp, the first lamp-on control command comprises a lamp-on command sent to other street lamps, the ith street lamp is turned on after receiving the first lamp-on control command, the ith street lamp sends a lamp-on command to the other street lamps, and the other street lamps are turned on after receiving the lamp-on command; the mobile intelligent terminal sends a first lamp-turning-off control command to the ith street lamp, the first lamp-turning-off control command comprises a lamp-turning-off command sent to other street lamps, the ith street lamp is turned off after receiving the first lamp-turning-off control command, the ith street lamp sends a lamp-turning-off command to the other street lamps, and the other street lamps are turned off after receiving the lamp-turning-off command;

the mobile intelligent terminal sends a second control command for turning on the lamp to the ith street lamp, wherein the second control command for turning on the lamp comprises a command for not sending the lamp to other street lamps, and the ith street lamp is turned on after receiving the second control command for turning on the lamp; the mobile intelligent terminal sends a second lamp-turning-off control command to the ith street lamp, wherein the second lamp-turning-off control command comprises a lamp-turning-off command which is not sent to other street lamps, and the ith street lamp is turned off after receiving the second lamp-turning-off control command;

s3, the mobile intelligent terminal sends a street lamp voltage signal to all street lamps, if the voltage of the jth street lamp is smaller than a first voltage threshold or larger than a second voltage threshold, j is a street lamp serial number and is a positive integer not larger than N, and the second voltage threshold is larger than the first voltage threshold, a jth street lamp voltage alarm signal is sent out on the mobile intelligent terminal;

the mobile intelligent terminal sends a street lamp current acquisition signal to all street lamps, and if the current of a j-th street lamp is smaller than a first current threshold or larger than a second current threshold, j is a street lamp serial number and is a positive integer not larger than N, and the second current threshold is larger than the first current threshold, a j-th street lamp current alarm signal is sent out on the mobile intelligent terminal;

calculating the power consumed by the street lampI _k For the current flowing through the kth street lamp, U _k And N is the total number of the street lamps, wherein the voltage between the kth street lamps is the voltage between the kth street lamps.

S4, when the mobile intelligent terminal sends a lighting command to all the street lamps, if a certain street lamp is not lighted, the street lamp controller sends ID information of the unlit street lamp to the mobile intelligent terminal, and the mobile intelligent terminal searches the geographic position bound by the unlit street lamp; and simultaneously positioning the geographic position of the mobile intelligent terminal, and planning one or more routes from the intelligent terminal to the unlit street lamp

When the mobile intelligent terminal sends a turn-off command to all the street lamps, if a certain street lamp is not turned off, the street lamp controller sends ID information of the non-turned-off street lamp to the mobile intelligent terminal, and the mobile intelligent terminal searches the geographic position bound by the non-turned-off street lamp; and simultaneously positioning the geographic position of the mobile intelligent terminal, and planning one or more routes from the intelligent terminal to the non-extinguished street lamp.

In this embodiment, the first and second LORA modules are preferably but not limited to 433M wireless communication modules, and the first controller is preferably but not limited to an STM32 chip. As shown in fig. 2, pin 9 of the STM32 chip is connected to the first end of the eighteenth resistor R18, the second end of the eighteenth resistor R18 is connected to the base of the NPN triode, the emitter of the NPN triode is grounded, the collector of the NPN triode is connected to the first end of the alarm, the second end of the alarm is connected to the first end of the seventeenth resistor R17, the second end of the resistor R17 is connected to the 3.3V power VCC3.3, and when the wireless communication unit has an alarm condition, the NPN triode is turned on, and the alarm gives an alarm to prompt a user. The pin 46 of the STM32 chip is connected with the first end of the fifth resistor R5, the second end of the fifth resistor R5 is connected with the positive electrode of the first light emitting diode LED1, the negative electrode of the first light emitting diode LED1 is grounded, and when the controller reads and writes data, the first light emitting diode LED1 is lightened to prompt a user to read and write data. The pin 50 of the STM32 chip is connected with the first end of the seventh resistor R7, the second end of the seventh resistor R7 is connected with the positive electrode of the third light emitting diode LED3, the negative electrode of the third light emitting diode LED3 is grounded, and when the STM32 chip works, the third light emitting diode LED3 is lightened to prompt a user, and the STM32 chip works. Pin 5 of STM32 chip is connected the first end of crystal oscillator X2 and the first end of eleventh electric capacity C11 respectively, and pin 6 of STM32 chip is connected to the second end of crystal oscillator X2, and the second ground connection of eleventh electric capacity C11, and pin 6 of STM32 chip is connected the first end of twelfth electric capacity C12, and the second ground connection of twelfth electric capacity C12 provides operating frequency for the STM32 chip. Pin 13 of STM32 chip connects the first end of power VCC and nineteenth resistance R19 respectively, and pin 7 of STM32 chip is connected to pin 7 of STM32 chip, and pin 7 of STM32 chip connects the first end of thirteenth electric capacity C13, and the second ground connection of thirteenth electric capacity C13, and pin 60 of STM32 chip connects the first end of twentieth resistance R20, and the second ground connection of twentieth resistance R20.

While embodiments of the present application have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the application, the scope of which is defined by the claims and their equivalents.

Claims (2)

1. The intelligent control method of the solar street lamp is convenient to carry and low in cost, and is characterized by comprising the following steps of:

s1, establishing wireless communication between a mobile intelligent terminal and a wireless communication unit, wherein the wireless communication unit establishes wireless communication with an ith street lamp, and i is a street lamp serial number and is a positive integer not more than N;

s2, the mobile intelligent terminal sends a first lamp-on control command to the ith street lamp, the first lamp-on control command comprises a lamp-on command sent to other street lamps, the ith street lamp is turned on after receiving the first lamp-on control command, the ith street lamp sends a lamp-on command to the other street lamps, and the other street lamps are turned on after receiving the lamp-on command; the mobile intelligent terminal sends a first lamp-turning-off control command to the ith street lamp, the first lamp-turning-off control command comprises a lamp-turning-off command sent to other street lamps, the ith street lamp is turned off after receiving the first lamp-turning-off control command, the ith street lamp sends a lamp-turning-off command to the other street lamps, and the other street lamps are turned off after receiving the lamp-turning-off command;

the mobile intelligent terminal sends a second control command for turning on the lamp to the ith street lamp, wherein the second control command for turning on the lamp comprises a command for not sending the lamp to other street lamps, and the ith street lamp is turned on after receiving the second control command for turning on the lamp; the mobile intelligent terminal sends a second lamp-turning-off control command to the ith street lamp, wherein the second lamp-turning-off control command comprises a lamp-turning-off command which is not sent to other street lamps, and the ith street lamp is turned off after receiving the second lamp-turning-off control command;

s3, the mobile intelligent terminal sends street lamp voltage signals to all street lamps, and if the voltage of a j-th street lamp is smaller than a first voltage threshold or larger than a second voltage threshold, j is a street lamp serial number and is a positive integer not larger than N, and the second voltage threshold is larger than the first voltage threshold, a j-th street lamp voltage alarm signal is sent out on the mobile intelligent terminal;

the mobile intelligent terminal sends a street lamp current signal to all street lamps, and if the current of a j-th street lamp is smaller than a first current threshold or larger than a second current threshold, j is a street lamp serial number and is a positive integer not larger than N, and the second current threshold is larger than the first current threshold, a j-th street lamp current alarm signal is sent on the mobile intelligent terminal;

s4, when the mobile intelligent terminal sends a lighting command to all the street lamps, if a certain street lamp is not lighted, the street lamp controller sends ID information of the unlit street lamp to the mobile intelligent terminal, and the mobile intelligent terminal searches the geographic position bound by the unlit street lamp; and simultaneously positioning the geographic position of the mobile intelligent terminal, and planning one or more routes from the intelligent terminal to the unlit street lamp

When the mobile intelligent terminal sends a turn-off command to all the street lamps, if a certain street lamp is not turned off, the street lamp controller sends ID information of the non-turned-off street lamp to the mobile intelligent terminal, and the mobile intelligent terminal searches the geographic position bound by the non-turned-off street lamp; and simultaneously positioning the geographic position of the mobile intelligent terminal, and planning one or more routes from the intelligent terminal to the non-extinguished street lamp.

2. The portable and low-cost intelligent control method for the solar street lamp according to claim 1, wherein the portable and low-cost intelligent control method for the solar street lamp comprises a portable and low-cost intelligent control system for the solar street lamp, the portable and low-cost intelligent control system for the solar street lamp comprises a mobile intelligent terminal, a wireless communication unit and N street lamps, and N is a positive integer;

the mobile intelligent terminal comprises a first Bluetooth module and a mobile terminal controller, and a data receiving and transmitting end of the mobile terminal controller is connected with a data receiving and transmitting end of the first Bluetooth module;

the wireless communication unit comprises a first controller, a second Bluetooth module and a first LORA module, wherein the data receiving and transmitting end of the second Bluetooth module is connected with the Bluetooth data receiving and transmitting end of the first controller, and the LORA data receiving and transmitting end of the first controller is connected with the data receiving and transmitting end of the first LORA module;

the street lamp comprises a street lamp controller and a second LORA module, wherein a data receiving and transmitting end of the street lamp controller is connected with a data receiving and transmitting end of the second LORA module;

the mobile intelligent terminal sends first data to be sent in the mobile intelligent terminal to the wireless communication unit through the first Bluetooth module, the wireless communication unit receives the first data sent by the mobile intelligent terminal through the second Bluetooth module, the wireless communication unit sends the received first data to the street lamp through the first LORA module, and the street lamp receives the first data sent by the wireless communication unit through the first LORA module;

the street lamp sends second data to be sent in the street lamp to the wireless communication unit through the second LORA module, the wireless communication unit receives the second data sent by the street lamp through the first LORA module, the wireless communication unit sends the received second data to the mobile intelligent terminal through the second Bluetooth module, and the mobile intelligent terminal receives the second data sent by the wireless communication unit through the first Bluetooth module.