CN114745836A - Control method and system of intelligent street lamp - Google Patents

Abstract

The application relates to the technical field of intelligent city management, in particular to a control method and a control system of an intelligent street lamp. The method comprises the following steps: acquiring an index value of a street lamp circuit to form a circuit index value; judging whether the circuit is in a normal state or not according to the circuit index value; when the circuit is in a normal state, continuously acquiring an index value of the circuit; and when the circuit is in an abnormal state, adjusting the state of the circuit. According to the control method and system of the intelligent street lamp, the circuit is adjusted after the abnormal phenomenon occurs, the circuit can work normally, the alarm is avoided after the fault occurs, and therefore economic loss is reduced.

Description

Control method and system of intelligent street lamp

Technical Field

The application relates to the technical field of intelligent city management, in particular to a control method and a control system of an intelligent street lamp.

Background

The intelligent street lamp is called an intelligent street lamp, or the intelligent street lamp and intelligent lighting adopt the technology of Internet of things and cloud computing to comprehensively upgrade a traditional urban public lighting management system, and realize the functions of centralized management and control of the street lamps, operation and maintenance informatization, lighting intellectualization and the like.

The existing intelligent street lamp system controls a street lamp loop or a single street lamp in real time on a system operation interface through various terminal devices so as to execute a timing task according to an open strategy. For example, a timing task can be issued to realize operations such as timing control of turning on and off a lamp, time-interval dimming and the like. And reporting the fault information after the street lamp fails, and maintaining the street lamp by people according to the received alarm information. Whether a vehicle passes through the road section can be automatically detected, the illumination brightness of the street lamp is automatically adjusted according to the result, and city management is greatly facilitated.

The existing intelligent street lamp control system is a business system for immediately and automatically reporting a lighting equipment fault system when a street lamp has a fault, the business system reminds in the modes of short message early warning, mail early warning and the like according to the alarm information type, and then the street lamp is subjected to alarm maintenance after the street lamp has the fault, so that the greater potential safety hazard is increased, and the greater loss can be brought.

Disclosure of Invention

In order to solve the technical problems that the existing intelligent street lamp reports fault information after the street lamp fails, people maintain the street lamp according to received alarm information, and then alarm maintenance is carried out after the street lamp fails, so that the normal use of the street lamp is influenced, and meanwhile, larger loss can be brought, the intelligent street lamp control method and the intelligent street lamp control system are provided.

In order to achieve the above object, the present application provides a control method for an intelligent street lamp, which adopts the following technical scheme:

acquiring an index value of a street lamp circuit to form a circuit index value;

judging whether the circuit is in a normal state or not according to the circuit index value;

when the circuit is in a normal state, continuously acquiring an index value of the circuit;

and when the circuit is in an abnormal state, adjusting the state of the circuit.

By adopting the technical scheme, the street lamp automatically acquires the index value of the circuit, judges the state of the circuit according to the index value after acquiring the index value, and judges whether an abnormal state exists or not. When the circuit is in a normal state, the system can continue to collect circuit index values, when the circuit is in an abnormal state, abnormal information can be automatically formed, the system can give an alarm according to the abnormal information, and a maintainer is reminded of overhauling. Through the control to the circuit index, monitor the circuit of street lamp like this, just report to the police when discovering unusually and handle, play the prevention effect like this, prevent that the street lamp from breaking down and just reporting to the police. Less reduction comes to loss.

Optionally, the circuit index value includes a current index value and a voltage index value, and the determining whether the circuit is in a normal state according to the circuit index value includes:

comparing the current index value and the voltage index value with corresponding index threshold intervals respectively to form respective comparison results;

when all the comparison results are within the index threshold interval, judging that the circuit is in a normal state;

and when at least one comparison result is not in the index threshold interval, judging that the circuit is in an abnormal state.

By adopting the technical scheme, the voltage index value and the current index value are respectively compared with the corresponding index interval threshold, when the comparison result is in the index threshold interval, the circuit is in a normal state, otherwise, the circuit is judged to be in an abnormal state. Therefore, the condition of the circuit can be judged from multiple angles by respectively comparing the voltage index value with the current index value, and the condition that the judgment is inaccurate due to interference of external factors is avoided.

Optionally, the abnormal state includes a first abnormal state and a second abnormal state, and when the circuit is in the abnormal state, adjusting the circuit state includes:

when the circuit is in the first abnormal state, adjusting the current index value and/or the voltage index value;

when the circuit is in the second abnormal state, disconnecting the circuit according to the circuit abnormal information and forming disconnection information;

acquiring the serial number of the street lamp according to the circuit breaking information to form street lamp serial number information;

editing the risk reminding short message to form a reminding short message;

and sending the street lamp number information and the reminding short message to a service system and giving an alarm for reminding.

By adopting the technical scheme, the abnormal state of the circuit is divided into two situations, when the circuit is in the first abnormal state, the voltage or current ratio is smaller, and the voltage or current index value is increased at the moment, so that the brightness of the street lamp is increased. When the street lamp is in the second abnormal state, the current and voltage values are relatively large, the circuit can be automatically disconnected at the moment, the serial number of the street lamp is obtained, an alarm short message is generated at the same time, and the serial number and the alarm information of the street lamp are sent to a service system. Therefore, different adjusting methods can be adopted for different states by judging the first abnormal state and the second abnormal state, so that the economic loss is reduced, and the use safety of the street lamp is improved.

Optionally, when at least one of the comparison results is not within the index threshold interval, determining that the circuit is in an abnormal state includes:

when at least one of the current index value and the voltage index value is smaller than the minimum value of the index threshold interval, determining that the circuit is in the first abnormal state;

and when at least one of the current index value and the voltage index value is larger than the maximum value of the index threshold interval, judging that the circuit is in the second abnormal state.

By adopting the technical scheme, when the first abnormal state is that at least one of the current index value or the voltage index value is smaller than the minimum value of the index threshold interval, the first abnormal state is indicated, and when at least one of the current index value or the voltage index value is larger than the maximum value of the index threshold interval, the second abnormal state is indicated. Thus, different operations can be better performed for different abnormal states by judging the first abnormal state and the second abnormal state.

Optionally, when the circuit is in an abnormal state, before adjusting the circuit state, the method includes:

acquiring an index value of the power grid to form a power grid index value;

comparing the power grid index value with the circuit index value;

when the power grid index value is the same as the circuit index value, judging that the circuit is in a normal state;

and when the power grid index value is different from the circuit index value, adjusting the circuit state.

By adopting the technical scheme, when the circuit preliminarily judges that the circuit is abnormal, the system can acquire the index value of the power grid, compares the acquired index value of the power grid with the index value of the circuit, and when the index value of the power grid is the same as the index value of the circuit, the circuit is not abnormal, the power grid possibly influences the normal of the street lamp, and the power grid index value is different from the circuit index value, so that the circuit is abnormal. By comparing the grid index value with the circuit index value, the situation that the influence of the grid misjudges the circuit can be prevented.

Optionally, the method further includes:

recording the service time of the street lamp to form working duration;

judging whether the street lamp is in a normal use time according to the working time;

when the street lamp is in a normal use time, continuing to record the use time of the street lamp;

when the street lamp is in abnormal use for a long time, reminding information is formed;

and sending the reminding information to a service system.

By adopting the technical scheme, the street lamp can automatically record the use time and form the working time, the working time is utilized to judge whether the street lamp is in the normal working time, if the working time exceeds the normal working time, the reminding information can be automatically formed and sent to a service system, and a maintainer is reminded of overhauling the street lamp. Through the judgement when working to the street lamp, prevent that the street lamp from because long-time work, the ageing condition of circuit appears, prevents dangerous emergence.

Optionally, the determining whether the street lamp is in a normal use time according to the working time information includes:

comparing the working time with a preset working time threshold;

when the working duration is greater than or equal to the working duration threshold, judging that the street lamp is in abnormal use duration;

and when the working time is less than the working time threshold, judging that the street lamp is in the normal use time.

By adopting the technical scheme, the working duration information is compared with the working duration threshold, when the working duration is greater than or equal to the working duration threshold, the service time is indicated to be exceeded, and if the working duration is less than the working duration threshold, the service time is indicated to be within the normal working time. Therefore, whether the street lamp is in normal working time or not can be accurately judged by comparing the working time with the working time threshold value.

Optionally, the method further includes:

acquiring the humidity condition inside the street lamp to form a humidity value;

comparing the humidity value with a preset humidity threshold value;

when the humidity value is smaller than or equal to the humidity threshold value, continuously acquiring the humidity condition in the street lamp after a preset period;

when the humidity value is larger than the humidity threshold value, humidity alarm information is formed;

and sending the humidity alarm information to a service system for alarm operation.

By adopting the technical scheme, the system can also acquire the humidity value of the street lamp, the acquired humidity value is compared with the preset humidity threshold value, and when the humidity value is smaller than or equal to the humidity threshold value, the working environment of the street lamp is dry, so that the short circuit condition of the circuit can not occur. When the humidity value is larger than the humidity threshold value, the street lamp is indicated to be in water inlet, and the risk of short circuit of the circuit is caused. Therefore, the risk of the street lamp is pre-judged by judging the humidity condition, and the effect of safe use is achieved.

In order to achieve the above object, on the other hand, the present application further provides a control system of an intelligent street lamp, which adopts the following technical scheme:

a control system of a smart street lamp, comprising:

the index acquisition module is used for acquiring an index value of the street lamp circuit to form a circuit index value;

the index judging module is used for judging whether the circuit is in a normal state or not according to the circuit index value;

and the circuit adjusting module is used for adjusting the circuit state when the circuit is in an abnormal state.

By adopting the technical scheme, the index acquisition module acquires the index value of the street lamp, the index judgment module judges the acquired index after the acquisition is finished, and the circuit adjustment module adjusts the state of the circuit after the circuit is judged to be abnormal. Through mutually supporting of each module, can be automatic detect the circuit like this, can be automatic when the circuit appears adjusting the circuit when unusual, avoid waiting to report to the police after the circuit breaks down, cause economic loss.

Optionally, the method further includes:

the time length recording module is used for recording the service time of the street lamp to form working time length;

the time judging module is used for judging whether the street lamp is in normal use time according to the working time;

the reminding generation module is used for forming reminding information when the street lamp is in abnormal use time;

and the information sending module is used for sending the reminding information to a service system.

By adopting the technical scheme, the time length recording module is used for recording the service time length of the street lamp, then the time judging module is used for judging whether the working trial production exceeds the threshold value, when the working trial production exceeds the threshold value, the reminding generating module can generate reminding information, and then the alarm module can perform alarm processing according to the reminding information. Through the mutual cooperation of each module, the working time of the street lamp is monitored, and the circuit fault when the circuit exceeds the threshold value is prevented.

In summary, the present application has the following beneficial technical effects:

the method comprises the steps of firstly collecting circuit index values of the street lamp, judging whether a circuit is abnormal or not according to the collected index values, and automatically adjusting the state of the circuit by a system when the circuit is abnormal. Therefore, the circuit is automatically monitored through the system, and is adjusted after the abnormal phenomenon occurs, so that the circuit can work normally, the alarm is avoided after the fault occurs, and the economic loss is reduced.

Drawings

FIG. 1 is a schematic flow chart of a control method of an intelligent street lamp;

FIG. 2 is a schematic diagram illustrating a flow chart of the present embodiment for determining whether a circuit is in a normal state according to a circuit index value;

FIG. 3 is a schematic diagram illustrating a process of adjusting a circuit state when the circuit is in an abnormal state according to the present embodiment;

FIG. 4 is a schematic flow chart illustrating a process of determining that the circuit is in an abnormal state if at least one comparison result is not within the indicator threshold interval according to the present embodiment;

FIG. 5 is a schematic flow chart illustrating a process of adjusting a circuit state when the circuit is in an abnormal state according to the present embodiment;

FIG. 6 is a schematic flow chart of another embodiment of the present embodiment;

fig. 7 is a schematic flow chart illustrating a process of determining whether the street lamp is in a normal use time according to the working time information in the embodiment;

FIG. 8 is a schematic flow chart of another embodiment of the present example;

fig. 9 is a schematic view of a control system of an intelligent street lamp.

Reference numerals: 1. an index collection module; 1. an index judgment module; 3. a circuit adjustment module; 4. a duration recording module; 5. a time judgment module; 6. a reminder generation module; 7. and an information sending module.

Detailed Description

The present application is described in further detail below with reference to figures 1-9.

It should be understood that the described embodiments are only some embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the invention discloses a control method for an intelligent street lamp with reference to fig. 1, which comprises the following steps:

s100, acquiring an index value of a street lamp circuit to form a circuit index value;

in this embodiment, the index value of the circuit may be an electrical index value and a current index value, or may be other index values, specifically selected according to actual situations.

In this embodiment, the acquisition of the index value is to continuously acquire the circuit index from the time when the street lamp starts to operate to the time when the street lamp ends to operate.

S200, judging whether the circuit is in a normal state or not according to the circuit index value;

and judging the acquired current value table and voltage indexes to judge whether the circuit is in an abnormal state or not.

S300, when the circuit is in a normal state, continuously acquiring an index value of the circuit;

if the circuit is in a normal state, the system can automatically and continuously acquire the index value of the circuit and analyze the index value.

S400, when the circuit is in an abnormal state, adjusting the circuit state.

If the circuit is in an abnormal state, the system automatically adjusts the state of the circuit.

In this embodiment, the adjustment of the circuit includes increasing the voltage and current values or cutting off the circuit

The street lamp automatically acquires the index value of the circuit, judges the state of the circuit according to the index value after acquiring the index value, and judges whether an abnormal state exists or not. When the circuit is in a normal state, the system can continue to collect circuit index values, when the circuit is in an abnormal state, abnormal information can be automatically formed, the system can give an alarm according to the abnormal information, and a maintainer is reminded of overhauling.

By adopting the technical scheme, the circuit of the street lamp is monitored by monitoring the circuit indexes, and alarm processing is performed when abnormity is found, so that a preventive effect is achieved, and the street lamp is prevented from being failed and alarming. Less reduction comes to loss.

In one implementation of this embodiment, referring to fig. 2, the step S200 that the circuit index value includes a current index value and a voltage index value, and the determining whether the circuit is in the normal state according to the circuit index value includes:

s210, comparing the current index value and the voltage index value with corresponding index threshold intervals respectively to form respective comparison results;

the current index value and the voltage index value are respectively compared with the corresponding index threshold intervals, and different results can be formed by comparing each index.

In this embodiment, the indicator threshold interval includes: the current index threshold interval and the voltage index threshold interval, the current index prefabricated interval is 55A ~65A, can also be other intervals, such as: 50A-65A or 60A-70A, specifically according to the actual situation to choose.

In this embodiment, the voltage index threshold interval is between 210V and 230V, and may be other intervals, such as: the voltage is 200V-230V or 210V-240V, and the selection is specifically carried out according to the actual situation.

S220, when all comparison results are within the index threshold interval, judging that the circuit is in a normal state;

when the detected current index value and the detected voltage index value are all in the interval, the circuit is indicated to operate in a normal environment, and if one is not in the interval, the circuit is indicated to be abnormal.

And S230, judging that the circuit is in an abnormal state when at least one comparison result is not in the index threshold interval.

If one comparison result is not in the index threshold interval, the circuit is indicated to have abnormal conditions.

And comparing the voltage index value and the current index value with corresponding index interval thresholds respectively, and when the comparison results are all in the index threshold interval, indicating that the circuit is in a normal state, otherwise, judging that the circuit is in an abnormal state.

By adopting the technical scheme, the condition of the circuit can be judged from multiple angles by respectively comparing the voltage index value with the current index value, and the condition that the judgment is inaccurate due to the interference of external factors is avoided.

In one implementation of this embodiment, referring to fig. 3, in step S230, the abnormal state includes a first abnormal state and a second abnormal state, and when the circuit is in the abnormal state, adjusting the circuit state includes:

s231, when the circuit is in the first abnormal state, adjusting a current index value and/or a voltage index value;

in this embodiment, the first abnormal state is represented as a first abnormal state if the voltage index value or the current index value is smaller than the minimum value of the index threshold interval;

when the circuit is in the first abnormal state, the voltage and the current value of the circuit are smaller, and the current index value or the voltage index value of the circuit is adjusted to be larger.

S232, when the circuit is in the second abnormal state, disconnecting the circuit according to the circuit abnormal information and forming disconnection information;

in this embodiment, the second abnormal state is represented by a voltage index value or a current index value being greater than the maximum value of the index threshold interval.

When the circuit is in the second abnormal state, the circuit can automatically disconnect the circuit and form disconnection information.

S233, acquiring the serial number of the street lamp according to the disconnection information to form street lamp serial number information;

when the street lamps are arranged, the street lamps are numbered, when the street lamps are in the second abnormal state, the system can automatically acquire the serial numbers of the street lamps, and the serial numbers of the street lamps are stored in the storage unit of the street lamps.

S234, editing the risk reminding short message to form a reminding short message;

when the street lamp is in the second abnormal state, the system can automatically generate a reminding short message to remind a maintainer to overhaul.

And S235, sending the street lamp number information and the reminding short message to a service system and giving an alarm for reminding.

In this embodiment, the street lamp number information and the reminding message are sent to the service system by using a wireless network, and may also be sent in other manners, such as: wired transmission, cellular network transmission, etc., and the selection is made according to the actual situation.

In this embodiment, the alarm prompt is an audio alarm prompt, and may also be an alarm in other forms, such as: light alarm, character alarm, etc. selected according to actual conditions.

The abnormal state of the circuit is divided into two cases, when the circuit is in the first abnormal state, the voltage or current ratio is smaller, and the voltage or current index value is increased at the moment, so that the current brightness of the street lamp is increased. When the street lamp is in the second abnormal state, the current and voltage values are relatively large, the circuit can be automatically disconnected at the moment, the serial number of the street lamp is obtained, an alarm short message is generated at the same time, and the serial number and the alarm information of the street lamp are sent to a service system.

By adopting the technical scheme, different adjusting methods can be adopted for different states by judging the first abnormal state and the second abnormal state, so that the economic loss is reduced, and the use safety of the street lamp is improved.

In one implementation manner of this embodiment, referring to fig. 4, when at least one comparison result is not within the index threshold interval, the determining that the circuit is in the abnormal state includes:

s01, when at least one of the current index value and the voltage index value is smaller than the minimum value of the index threshold interval, judging that the circuit is in a first abnormal state;

and S02, judging that the circuit is in a second abnormal state when at least one of the current index value and the voltage index value is greater than the maximum value of the index threshold interval.

In the present embodiment, neither the maximum value nor the minimum value is equal to this case.

When at least one of the current index value or the voltage index value is larger than the maximum value of the index threshold interval, the current state is a second abnormal state.

By adopting the technical scheme, different operations can be better performed aiming at different abnormal states by judging the first abnormal state and the second abnormal state.

In one implementation of this embodiment, referring to fig. 5, step S400, namely when the circuit is in an abnormal state, before adjusting the circuit state, includes:

s410, acquiring an index value of the power grid to form a power grid index value;

in this embodiment, the obtained grid index values are a voltage value of the power supply grid and a current value of the power supply grid.

S420, comparing the power grid index value with the circuit index value;

and respectively comparing the acquired voltage value of the power supply grid and the current value of the power supply grid with the current value and the voltage value of the street lamp circuit.

S430, when the power grid index value is the same as the circuit index value, judging that the circuit is in a normal state;

if the voltage value and the current value of the power supply grid are the same as those of the street lamp circuit, the street lamp circuit is in a normal state, and the voltage value and the current value of the street lamp circuit are abnormal due to the influence of the voltage of the power grid.

And S440, when the power grid index value is different from the circuit index value, adjusting the circuit state.

If the voltage value and the current value of the power supply grid are different from the current value and the voltage value of the street lamp circuit, the fact that the power grid does not influence the street lamp circuit is indicated, and at the moment, it can be judged that the street lamp circuit is abnormal.

When the circuit preliminarily judges that the circuit is abnormal, the system acquires an index value of the power grid, compares the acquired index value of the power grid with the index value of the circuit, and when the index value of the power grid is the same as the index value of the circuit, the circuit is not abnormal, the power grid possibly affects the normal of the street lamp, and the power grid index value is different from the circuit index value, so that the circuit is abnormal.

By adopting the technical scheme, the power grid index value is compared with the circuit index value, so that the situation that the influence of the power grid misjudges the circuit can be prevented.

In one implementation of this embodiment, referring to fig. 6, the method further includes:

s500, recording the service time of the street lamp to form working time;

and the time recording unit on the street lamp records the working time of the street lamp.

S600, judging whether the street lamp is in normal use time or not according to the working time;

and judging whether the street lamp exceeds the specified service time or not according to the recorded working time.

S700, when the street lamp is in a normal use time, continuing to record the use time of the street lamp;

s800, when the street lamp is not normally used for a long time, reminding information is formed;

if the street lamp exceeds the specified service time, the system can automatically form reminding information.

In this embodiment, the reminding information includes the working duration information and the street lamp number information, and may further include other contents, which are specifically selected according to actual situations.

And S900, sending the reminding information to a service system.

In this embodiment, the service system is a monitoring and control system of a street lamp, and can be used to receive alarm and prompt information sent by the street lamp.

In this embodiment, the reminding information is sent to the service system by using a wireless network, and may also be sent in other forms, such as: wired network, cellular data, etc., as the case may be.

The street lamp can also automatically record the use time and form the working time, whether the street lamp is in the normal working time or not is judged by utilizing the working time, if the working time exceeds the normal working time, the reminding information can be automatically formed, and is sent to a service system to remind a maintainer to overhaul the street lamp.

By adopting the technical scheme, the street lamp is prevented from being aged due to long-time work through judgment of the working time of the street lamp, and danger is prevented.

In one implementation manner of this embodiment, referring to fig. 7, the step S600 of determining whether the street lamp is in the normal use time period according to the working time period information includes:

s610, comparing the working time with a preset working time threshold;

in this embodiment, the threshold of the working duration is 365 days, and may also be other values, such as: 182 days or 730 days, and the selection is carried out according to the actual situation.

S620, when the working duration is greater than or equal to the working duration threshold, judging that the street lamp is in abnormal use duration;

if the working time is longer than or equal to the threshold value of the working time, the street lamp needs to be overhauled, and the street lamp is likely to have the problems of line aging and the like.

S630, when the working time is less than the working time threshold, judging that the street lamp is in normal use time.

And comparing the working duration information with the working duration threshold, when the working duration is greater than or equal to the working duration threshold, indicating that the service time is exceeded, and if the working duration is less than the working duration threshold, indicating that the service time is within the normal working time.

By adopting the technical scheme, the working time is compared with the working time threshold value, so that whether the street lamp is in the normal working time or not can be accurately judged.

In one implementation of this embodiment, referring to fig. 8, the method further includes:

s1000, acquiring the humidity condition inside the street lamp to form a humidity value;

the street lamp can acquire the humidity condition in the bulb of the street lamp. And acquiring by using a humidity sensor, and generating a humidity value according to the acquired humidity condition.

S1100, comparing the humidity value with a preset humidity threshold value;

in this embodiment, the humidity threshold is 50%, and may be other values, such as: 40% or 60%, etc., and the concrete conditions are selected according to actual conditions.

S1200, when the humidity value is smaller than or equal to the humidity threshold value, continuously acquiring the humidity condition in the street lamp after a preset period;

in this embodiment, the predetermined period is 15 days, but may be other periods, such as: 10 days or 20 days, and the selection is carried out according to the actual situation.

S1300, when the humidity value is larger than a humidity threshold value, humidity alarm information is formed;

in this embodiment, the humidity alarm information includes: humidity value, lamp post number, etc. Other content may also be included.

And S1400, sending the humidity alarm information to a service system for alarm operation.

In this embodiment, the humidity alarm information is sent to the service system by using a wireless network, and may also be sent in other forms, such as: wired network, cellular data, etc., as the case may be.

In this embodiment, the alarm operation is a sound alarm, or a light alarm, and is specifically selected according to the actual situation.

The system can also acquire the humidity value of the street lamp, compares the acquired humidity value with a preset humidity threshold value, and when the humidity value is smaller than or equal to the humidity threshold value, the working environment of the street lamp is dry, so that the short circuit condition of the circuit can not occur. When the humidity value is larger than the humidity threshold value, the street lamp is indicated to be in water inlet, and the risk of short circuit of the circuit occurs.

By adopting the technical scheme, the risk of the street lamp is pre-judged by judging the humidity condition, so that the effect of safe use is achieved.

Referring to fig. 9, an embodiment of the present invention further provides a control system of an intelligent street lamp, including: the device comprises an index acquisition module 1, an index judgment module 2 and a circuit adjustment module 3.

The index acquisition module 1 is used for acquiring an index value of the street lamp circuit to form a circuit index value; the index judging module 2 is used for judging whether the circuit is in a normal state or not according to the circuit index value; and the circuit adjusting module 3 is used for adjusting the circuit state when the circuit is in an abnormal state.

The index acquisition module 1 acquires the index value of the street lamp, after the acquisition is completed, the index judgment module 2 judges the acquired index, and when the circuit is judged to be abnormal, the circuit adjustment module 3 adjusts the state of the circuit.

By adopting the technical scheme, the modules are mutually matched, the circuit can be automatically detected, the circuit can be automatically adjusted when the circuit is abnormal, and the phenomenon that the alarm is given after the circuit breaks down to cause economic loss is avoided.

In one implementation of this embodiment, referring to fig. 9, the method further includes: the device comprises a duration recording module 4, a time judging module 5, a reminding generating module 6 and an information sending module 7.

The duration recording module 4 is used for recording the service time of the street lamp to form working duration; the time judging module 5 is used for judging whether the street lamp is in normal use time according to the working time; the reminding generation module 6 is used for forming reminding information when the street lamp is in abnormal use time; and the information sending module 7 is used for sending the reminding information to the service system.

The time length recording module 4 is used for recording the service time length of the street lamp, the time judging module 5 is used for judging whether the working trial production number exceeds a threshold value, when the working trial production number exceeds the threshold value, the reminding generating module 6 can generate reminding information, and then the alarm module can perform alarm processing according to the reminding information.

By adopting the technical scheme, the working time of the street lamp is monitored by mutually matching the modules, so that the circuit fault caused when the circuit exceeds the threshold value is prevented.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A control method of an intelligent street lamp is characterized by comprising the following steps:

acquiring an index value of a street lamp circuit to form a circuit index value;

judging whether the circuit is in a normal state or not according to the circuit index value;

when the circuit is in a normal state, continuously acquiring an index value of the circuit;

and when the circuit is in an abnormal state, adjusting the state of the circuit.

2. The method of claim 1, wherein the circuit index value comprises a current index value and a voltage index value, and the determining whether the circuit is in a normal state according to the circuit index value comprises:

comparing the current index value and the voltage index value with corresponding index threshold intervals respectively to form respective comparison results;

when all the comparison results are within the index threshold interval, judging that the circuit is in a normal state;

and when at least one comparison result is not in the index threshold interval, judging that the circuit is in an abnormal state.

3. The method as claimed in claim 2, wherein the abnormal state includes a first abnormal state and a second abnormal state, and when the circuit is in the abnormal state, the adjusting the circuit state includes:

when the circuit is in the first abnormal state, adjusting the current index value and/or the voltage index value;

when the circuit is in the second abnormal state, disconnecting the circuit according to the circuit abnormal information and forming disconnection information;

acquiring the serial number of the street lamp according to the circuit breaking information to form street lamp serial number information;

editing the risk reminding short message to form a reminding short message;

and sending the street lamp number information and the reminding short message to a service system and giving an alarm for reminding.

4. The method as claimed in claim 3, wherein the determining that the circuit is in the abnormal state when at least one of the comparison results is not within the threshold interval comprises:

when at least one of the current index value and the voltage index value is smaller than the minimum value of the index threshold interval, determining that the circuit is in the first abnormal state;

and when at least one of the current index value and the voltage index value is larger than the maximum value of the index threshold interval, judging that the circuit is in the second abnormal state.

5. The method as claimed in claim 1, wherein the adjusting the state of the circuit when the circuit is in the abnormal state comprises:

acquiring an index value of the power grid to form a power grid index value;

comparing the power grid index value with the circuit index value;

when the power grid index value is the same as the circuit index value, judging that the circuit is in a normal state;

and when the power grid index value is different from the circuit index value, adjusting the circuit state.

6. The method for controlling the intelligent street lamp according to claim 1, further comprising:

recording the service time of the street lamp to form working duration;

judging whether the street lamp is in a normal use time according to the working time;

when the street lamp is within the normal use time, continuing to record the use time of the street lamp;

when the street lamp is out of the abnormal use time, reminding information is formed;

and sending the reminding information to a service system.

7. The method for controlling the intelligent street lamp according to claim 6, wherein the determining whether the street lamp is in a normal use time period according to the working time period information comprises:

comparing the working time with a preset working time threshold;

when the working duration is greater than or equal to the working duration threshold, judging that the street lamp is in abnormal use duration;

and when the working time is less than the working time threshold, judging that the street lamp is in the normal use time.

8. The method for controlling the intelligent street lamp according to claim 1, further comprising:

acquiring the humidity condition inside the street lamp to form a humidity value;

comparing the humidity value with a preset humidity threshold value;

when the humidity value is smaller than or equal to the humidity threshold value, continuously acquiring the humidity condition in the street lamp after a preset period;

when the humidity value is larger than the humidity threshold value, humidity alarm information is formed;

and sending the humidity alarm information to a service system for alarm operation.

9. The utility model provides a control system of wisdom street lamp which characterized in that includes:

the index acquisition module (1) is used for acquiring the index value of the street lamp circuit to form a circuit index value;

the index judging module (2) is used for judging whether the circuit is in a normal state according to the circuit index value;

and the circuit adjusting module (3) is used for adjusting the circuit state when the circuit is in an abnormal state.

10. The control system of intelligent street lamp according to claim 9, further comprising:

the duration recording module (4) is used for recording the service time of the street lamp to form working duration;

the time judging module (5) is used for judging whether the street lamp is in normal use time according to the working time;

the reminding generation module (6) is used for forming reminding information when the street lamp is in abnormal use time;

and the information sending module (7) is used for sending the reminding information to a service system.

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