CN113795063A - Street lamp control system and control method thereof - Google Patents

Abstract

The invention discloses a street lamp control system and a control method thereof, wherein the street lamp control system comprises: the sensing layer is used for acquiring environmental data of the street lamp; the sensing layer comprises a control module, a switch module, a detection module and a communication module, the communication module is connected with the control module, the detection module is connected with the control module, the control module is also connected with the switch module, and the switch module is connected to the LED lamp bank; a communication layer including a base station; and the application layer is used for controlling the street lamp according to the environment data. According to the invention, by arranging the application layer, the communication layer and the induction layer, the street lamp can be remotely monitored in real time, so that manual inspection of the street lamp is avoided, and the cost for manually managing the street lamp is saved; and can open and close the street lamp automatically, need not artifical the opening and the closing work of participating in the street lamp, have the characteristics that intelligent degree is high. The invention can be widely applied to the technical field of street lamp control.

Description

Street lamp control system and control method thereof

Technical Field

The invention relates to the technical field of street lamp control, in particular to a street lamp control system and a control method thereof.

Background

Street lamp illumination brings huge facility for people's trip, but in actual life, the maintenance and the management of street lamp are comparatively difficult, for example, whether the street lamp that needs artifical inspection road both ends breaks down, if the street lamp breaks down, then maintain and change, in addition, still need the manual work to control opening and closing of street lamp, and the mode of this kind of manual detection street lamp needs to drop into more cost of labor.

Disclosure of Invention

To solve the above technical problems, the present invention aims to: a street lamp control system is provided.

The first technical scheme adopted by the invention is as follows:

a street light control system, the street light including a group of LED lights, the street light control system comprising:

the sensing layer is used for acquiring environmental data of the street lamp; the sensing layer comprises a control module, a switch module, a detection module and a communication module, the communication module is connected with the control module, the detection module is connected with the control module, the control module is also connected with the switch module, and the switch module is connected to the LED lamp bank;

a communication layer including a base station;

and the application layer is used for controlling the street lamp according to the environment data.

Further, the application layer is also used for positioning the street lamp.

Further, the application layer controls the street lamp by using an astronomical start clock.

Further, the perception layer also transmits the environment data to a cloud platform.

Furthermore, the sensing layer further comprises an electric energy detection module, and the electric energy detection module is used for detecting the real-time voltage, the real-time current and the real-time power of the street lamp.

Further, the sensing layer further comprises a power adjusting module, and the power adjusting module is used for adjusting the running power of the street lamp.

Further, the switch module is a relay.

The second technical scheme adopted by the invention is as follows:

a street lamp control method is applied to the street lamp control system and comprises the following steps:

acquiring environmental data of the street lamp by using the induction layer;

and the application layer controls the street lamp according to the environment data.

Further, the street lamp control method further comprises the following steps:

the application layer controls the street lamp through an astronomical clock.

Further, the street lamp control method further comprises the following steps:

the application layer positions the street lamp.

The invention has the beneficial effects that: according to the technical scheme, the application layer, the communication layer and the induction layer are arranged, so that the street lamp can be remotely monitored in real time, manual inspection of the street lamp is avoided, and the cost for manually managing the street lamp is saved; and can open and close the street lamp automatically, need not artifical the opening and the closing work of participating in the street lamp, have the characteristics that intelligent degree is high.

Drawings

FIG. 1 is a schematic structural diagram of a street lamp control system according to the present invention;

FIG. 2 is a temperature profile of the present invention;

FIG. 3 is a schematic circuit diagram of the power detection module of the present invention;

FIG. 4 is a block diagram of a power conditioning module of the present invention;

FIG. 5 is a partial circuit schematic of the power conditioning module of the present invention;

fig. 6 is a flowchart illustrating steps of a street lamp control method according to the present invention.

Detailed Description

Reference will now be made in detail to the present preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.

In the present invention, if directions (up, down, left, right, front, and rear) are described, it is only for convenience of describing the technical solution of the present invention, and it is not intended or implied that the technical features referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, it is not to be construed as limiting the present invention.

In the invention, the meaning of "a plurality" is one or more, the meaning of "a plurality" is more than two, and the terms of "more than", "less than", "more than" and the like are understood to exclude the number; the terms "above", "below", "within" and the like are understood to include the instant numbers. In the description of the present invention, if there is description of "first" and "second" only for the purpose of distinguishing technical features, it is not to be understood as indicating or implying relative importance or implicitly indicating the number of indicated technical features or implicitly indicating the precedence of the indicated technical features.

In the present invention, unless otherwise specifically limited, the terms "disposed," "mounted," "connected," and the like are to be understood in a broad sense, and for example, may be directly connected or indirectly connected through an intermediate; can be fixedly connected, can also be detachably connected and can also be integrally formed; may be mechanically coupled, may be electrically coupled or may be capable of communicating with each other; either as communication within the two elements or as an interactive relationship of the two elements. The specific meaning of the above-mentioned words in the present invention can be reasonably determined by those skilled in the art in combination with the detailed contents of the technical solutions.

The step numbers in the following embodiments are provided only for convenience of illustration, the order between the steps is not limited at all, and the execution order of each step in the embodiments can be adapted according to the understanding of those skilled in the art.

The invention will be further explained and explained with reference to the drawings and the embodiments in the description.

In order to at least partially solve one of the above problems, the present invention provides a street lamp control system, which is applied to a street lamp, wherein the street lamp comprises an LED lamp set, and referring to fig. 1, the street lamp control system comprises:

the sensing layer is used for acquiring environmental data of the street lamp; the sensing layer comprises a control module, a switch module, a detection module and a communication module, the communication module is connected with the control module, the detection module is connected with the control module, the control module is also connected with the switch module, and the switch module is connected to the LED lamp bank;

a communication layer including a base station;

and the application layer is used for controlling the street lamp according to the environmental data.

Specifically, a sensing layer is configured for each street lamp, and the sensing layer is utilized to obtain environment data of the street lamp, wherein the environment data mainly refers to light intensity data around the street lamp and heat data of the LED lamp set, and the detection module of the sensing layer may include a temperature sensor with a model of DS18B20 and a digital illumination sensor with a model of BH1750FVI, which are respectively used for detecting the light intensity around the street lamp and the temperature of the LED lamp set.

And the control module plays a role in data processing and control. In one embodiment, the control module may include a microprocessor, model ATMEGA32, which satisfies the low cost and low power consumption requirements.

And the switch module is used for controlling the on-off of the power supply of the LED lamp bank according to the control signal of the control module.

And the communication module is used for realizing the communication between the perception layer and the application layer so as to realize the data transmission between the perception layer and the application layer. In a specific embodiment, the communication module may adopt an NB-IoT communication module, wherein the BC35-G module has the characteristics of high performance, low power consumption, small size, low price, and the like, and the size of the BC35-G module is 23.6mm × 19.9mm × 2.2mm, which is only equivalent to the size of one coin, and the BC35-G communication module is widely applied to terminal products with small size requirements, so that the NB-IoT communication module is implemented by using the BC35-G communication module.

The communication layer comprises a base station, the base station is used for realizing a data forwarding function, for example, the sensing layer uploads detected environment data to the base station by using the communication module, the base station forwards the environment data to the application layer, and a user can check the environment condition of the street lamp in real time on the application layer side.

In one embodiment, the detection module is used for detecting the intensity of the external light, and the intensity of the external light is used as the turn-on condition of the street lamp. For example, the application layer continuously is lower than a certain threshold value according to the light intensity data uploaded by the control module of the sensing layer, and then it can be judged that the night arrives, the application layer then sends a signal for turning on the light to the control module, and the control module receives the signal for turning on the light, and then triggers the control signal to control the switch module to be closed, so that the power supply of the LED lamp group is switched on, and the street lamp is lighted. Of course, when the application layer determines that the detected external light intensity is continuously higher than a certain threshold value, it is determined that dawn comes, and then the signal control module that sends the signal for turning off the street lamp controls the signal for turning off the street lamp, so that the control module turns off the street lamp.

Certainly, the user can also control the street lamp on the application layer side, for example, the user can only turn on a part of street lamps by selecting through the application layer, and the application layer can send the control signal for turning on the street lamps to a part of induction layers and send the control signal for turning off the street lamps to the rest of induction layers by using a random algorithm, so that the street lamps are controlled to be turned on randomly, and the power saving is facilitated.

According to the application, the application layer, the communication layer and the induction layer are arranged, so that the street lamp can be remotely monitored in real time, manual inspection of the street lamp is avoided, and the cost for manually managing the street lamp is saved; and can open and close the street lamp automatically, need not artifical the opening and the closing work of participating in the street lamp, have the characteristics that intelligent degree is high.

As a further optional embodiment, the application layer is also used for positioning the street lamps.

Specifically, when the application layer receives street lamp fault information uploaded by the sensing layer, it indicates that a street lamp may have a fault, and a maintenance worker needs to perform processing, so that the street lamp to be repaired needs to be located.

In a specific embodiment, the application layer may use a third-party map, such as a gold map SDK, to perform the location positioning of the street lamp, so as to obtain the location information of the failed street lamp.

Further as an optional embodiment, the application layer controls the street lamps using an astronomical start clock.

Specifically, the application layer includes mobile intelligent device and host computer etc, wherein, mobile intelligent device includes smart mobile phone, panel etc, the host computer includes the computer etc. and smart device or host computer usable inside astronomical clock come to confirm sunrise time and the sunset time that the longitude and latitude that the street lamp belongs to correspond to come temporarily at the sunset time, control the street lamp and turn on the light, come temporarily at the sunrise time, control the street lamp and turn off the light, reach the purpose that can adjust the time of switch and turn off the light along with the change in season.

Further as an optional implementation, the sensing layer also transmits the environmental data to the cloud platform.

Specifically, the control module further transmits the environmental data acquired by the detection module to the cloud platform through the communication module, in a specific embodiment, the environmental data can be received and stored by the cloud platform of the internet of things of the china mobile ONENET, and a real-time environmental data statistical graph is drawn by using the environmental data, for example, referring to fig. 2, the cloud platform of the internet of things of the china mobile ONENET draws the temperature data received in real time into a line graph which is transmitted to the terminal device of the user, for example, a smart phone, the user can check the line graph of the street lamp on the terminal device side, and when the street lamp is abnormally heated, the cloud platform of the internet of things of the china mobile ONENET can also transmit the abnormal temperature data and alarm information or fault information to the terminal device of the user, so as to remind the user that the current street lamp is possibly in fault.

As a further optional implementation, the sensing layer further includes an electric energy detection module, and the electric energy detection module is used for detecting real-time voltage, real-time current and real-time power of the street lamp.

Specifically, the electric energy detection module is connected with the control module, the electric energy detection module is used for detecting real-time voltage, real-time current and real-time power when the street lamp works, the control module receives the real-time voltage, the real-time current and the real-time power, the control module transmits the received electrical parameters such as the real-time voltage, the real-time current and the real-time power to the application layer, in addition, when the control module judges that the street lamp works in the states of overcurrent, overvoltage and overload according to the implementation voltage, the real-time current and the real-time power, the control module is used for transmitting alarm signals of the overcurrent, the overvoltage and the overload to the application layer, and therefore a user can know the running condition of the street lamp. Referring to fig. 3, in a specific embodiment, the power detection module includes a power metering chip with model number SSP1839, and the power metering chip may be used to measure parameters such as current effective value, voltage effective value, and operating power of the street lamp.

Further as an optional implementation manner, the sensing layer further includes a power adjusting module, and the power adjusting module is used for adjusting the operating power of the street lamp.

Specifically, the power conditioning module is coupled to the control module. The operation power of the street lamp can be adjusted according to different time periods, so that the operation power of the street lamp is adjusted by using the power adjusting module.

In a specific embodiment, the street lamp is turned on at six evening hours, turned off at six morning hours, and during a time period from six evening hours to nine night hours, the traffic flow and the vehicle flow are the highest, the road lighting requirement is the highest, and the street lamp is required to keep high illumination, so that the running power of the street lamp is controlled to be the rated power. In a time period from six nights to eleven nights, the flow of people and the flow of vehicles are reduced, the road lighting requirement is general, the illumination of the street lamp is controlled to be middle illumination, and the operating power of the street lamp is controlled to be 50% of rated power. In the time period from eleven points to six points in the morning, the pedestrian flow and the vehicle flow are very little, the road lighting requirement is the lowest, and the street lamp is kept at the lowest illumination, so that the running power of the street lamp is controlled to be 35% of rated power.

In order to achieve the purpose of power adjustment, referring to fig. 4, the power adjustment module includes an LED driving circuit, the LED driving circuit is configured to drive the LED lamp set to operate, the control module outputs a PWM signal to the LED driving circuit, and the PWM dimming mechanism of the LED driving circuit is utilized to control the operating power of the street lamp.

In addition, in the late night period, because the power load of the whole power distribution network is continuously reduced, the voltage of the power distribution network is obviously increased and reaches 250V (alternating current), and the requirement on the road illumination intensity in the late night period is very low, therefore, the power supply voltage of the street lamp is high, the regional street lamp control terminal uniformly performs voltage reduction control on the special transformer, referring to fig. 4 and 5, the power regulating module comprises a power supply controller with the model number of LP3773C, and the power regulating module converts the reduced alternating current into direct current with the voltage value of 5V and the current value of 1200mA, and provides the direct current to the LED driving circuit to be used as an input power supply of the LED driving circuit.

Further as an alternative embodiment, the switch module is a relay.

Specifically, because the relay has low price, the simple characteristics of control, consequently, this application adopts the relay as a realization of switch module. Of course, the switch module may also adopt an electronic switch tube, an electromagnetic valve, etc., and the application is not strictly limited.

In order to more clearly illustrate the implementation principle of the present application, the present application further provides the following embodiments:

in the embodiment, the application layer determines the sunset time and the sunrise time through an astronomical clock in the application layer, so that when the sunset time comes, a light-on signal is transmitted to the sensing layer through the communication layer, the control module of the sensing layer receives the light-on signal and immediately triggers the control signal to control the switch module to be closed, and therefore, a power supply is switched on for an LED lamp group of the street lamp, the street lamp is lightened, and the street lamp is closed at the sunrise time. In the period from sunset time to sunrise time, the power regulating module in the sensing layer can be used for regulating the running power of the street lamp according to actual conditions, so that the aim of saving electric power is fulfilled.

Of course, this application also utilizes the light intensity data that the detection module on response layer detected as the street lamp to open and close the condition of street lamp, for example, runs into bad weather, and under the lower, the darker condition of light of road visibility, the application layer controls opening of street lamp according to the light intensity data of street lamp.

In addition, control module still with the environmental data that detection module detected to and the street lamp that electric energy detection module detected real-time voltage, real-time current and real-time power electricity parameters such as transmit the application layer through the communication layer, and the application layer includes mobile intelligent equipment and host computer etc. and the user can come these data of looking over in real time on the application layer side, has realized the purpose to the remote monitoring and the control of street lamp. When the control module judges that the street lamp works abnormally according to the environmental data, the electrical parameters and the like, an alarm signal is sent to the application layer, and when a user finds the alarm signal on the application layer side, a maintenance worker is dispatched to process the alarm signal.

The method and the system have the advantages that the environmental data, the electrical parameters and the like are uploaded to the cloud platform, the cloud platform has data processing capacity, and when street lamp faults are judged according to the environmental data, the electrical parameters and the like, alarm information can be sent to the mobile terminal device of the user, so that the user is reminded that faults possibly exist in the current street lamp.

In addition, referring to fig. 6, the present application further provides a street lamp control method applied to the street lamp control system, including the following steps:

s1, acquiring environmental data of the street lamp by using the induction layer;

and S2, the application layer controls the street lamp according to the environmental data.

The sensing layer comprises a detection module, the environment data of the street lamp can be detected by the detection module, the environment data can comprise temperature data, illumination intensity data and the like, the acquired environment data are transmitted to the application layer by the control module in the sensing layer, and when the control module judges that the street lamp works abnormally according to the environment data (for example, when the street lamp is judged to generate heat abnormally according to the temperature data), the control module outputs an alarm signal to the application layer, so that a user can conveniently monitor the running condition of the street lamp at the application layer in a remote mode.

The application layer judges that the night arrives according to the light intensity data uploaded by the control module of the sensing layer, the application layer sends a light-on signal to the control module, the control module receives the light-on signal, and the control signal is triggered to control the switch module to be closed, so that the power supply of the LED lamp bank is switched on, and the street lamp is lightened. Of course, when the application layer determines that the detected light intensity data indicates that dawn comes, the signal control module for sending the signal for turning off the street lamp controls the street lamp to be turned off, so that the control module turns off the street lamp.

After the application layer acquires the illumination intensity data, if the current time is determined to be close to the evening, the control signal for turning on the lamp is sent to the control module of the application layer, the control module triggers the control signal to control the switch module to be closed, so that the power supply of the LED lamp group is switched on, and the street lamp is lightened. The application layer determines that the current time is close to dawn according to the light intensity data, then sends a control signal for turning off the lamp to the control module, and the control module turns off the street lamp.

According to the method, the street lamp is controlled to be opened and closed under different illumination conditions, manual work is avoided participating in the opening and closing work of the street lamp, labor cost is saved, the purpose of remotely monitoring the street lamp is achieved, and the method has the advantage of being high in intelligent degree.

As a further optional implementation, the street lamp control method further includes the following steps:

and S3, the application layer controls the street lamp through an astronomical clock.

Specifically, except that the collected environmental data is used for controlling the opening and closing of the street lamp, the application also provides another embodiment for controlling the opening and closing of the street lamp, the sunrise time and the sunset time corresponding to the longitude and latitude where the street lamp is located can be obtained through an astronomical clock carried by an application layer, the application layer sends a control signal for turning on the street lamp to a control module of a perception layer when determining the sunset time, the control module controls the street lamp to be opened, and when determining the sunrise time comes, the application layer sends a control signal for turning off the street lamp to the control module of the perception layer and controls the street lamp to be closed.

As a further optional implementation, the street lamp control method further includes the following steps:

the application layer positions the street lamp.

Specifically, when the street lamp is in fault, maintenance personnel need to be dispatched to check and repair the street lamp, and the application layer can adopt the third-party high-grade map SDK to position the street lamp so as to acquire the position information of the fault street lamp.

While the preferred embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a street lamp control system, is applied to the street lamp, the street lamp includes LED banks, its characterized in that, street lamp control system includes:

the sensing layer is used for acquiring environmental data of the street lamp; the sensing layer comprises a control module, a switch module, a detection module and a communication module, the communication module is connected with the control module, the detection module is connected with the control module, the control module is also connected with the switch module, and the switch module is connected to the LED lamp bank;

a communication layer including a base station;

and the application layer is used for controlling the street lamp according to the environment data.

2. The streetlamp control system of claim 1, wherein the application layer is further configured to locate the streetlamp.

3. The streetlamp control system of claim 1, wherein the application layer controls the streetlamp by means of an astronomical clock.

4. The street lamp control system as claimed in claim 1, wherein the sensing layer further transmits the environmental data to a cloud platform.

5. The streetlamp control system of claim 1, wherein the sensing layer further comprises a power detection module for detecting real-time voltage, real-time current and real-time power of the streetlamp.

6. The streetlamp control system of claim 1, wherein the sensing layer further comprises a power adjustment module, and the power adjustment module is configured to adjust the operating power of the streetlamp.

7. The streetlamp control system of claim 1, wherein the switch module is a relay.

8. A street lamp control method applied to a street lamp control system according to any one of claims 1 to 7, comprising the steps of:

acquiring environmental data of the street lamp by using the induction layer;

and the application layer controls the street lamp according to the environment data.

9. The streetlamp control method according to claim 8, further comprising:

the application layer controls the street lamp through an astronomical clock.

10. The streetlamp control method according to claim 8, further comprising:

and the application layer acquires the position information of the street lamp.

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