CN111382881A

CN111382881A - Intelligent maintenance system applied to urban illumination

Info

Publication number: CN111382881A
Application number: CN202010287119.7A
Authority: CN
Inventors: 黄新炜
Original assignee: Shenzhen Yonghengguang Lighting Technology Co ltd
Current assignee: Shenzhen Yonghengguang Lighting Technology Co ltd
Priority date: 2020-04-13
Filing date: 2020-04-13
Publication date: 2020-07-07

Abstract

The invention discloses an intelligent maintenance system applied to urban illumination, which has the technical scheme that the intelligent maintenance system comprises a detection module, a control terminal and an execution terminal; the detection module is used for detecting whether the street lamp is in fault or not so as to send a street lamp fault signal; the control terminal comprises a central processing unit, a database, a wireless transceiver module, an alarm module, a distribution module and a map module, wherein the wireless transceiver module is used for transmitting a detection signal to the central processing unit; the central processing unit sends street lamp fault signals to the database, the alarm module and the map module, the database stores street lamp fault information, the alarm module gives out an alarm, the map module sends street lamp fault signals and map positioning signals, the street lamp fault signals and the map positioning signals are distributed to the execution end through the distribution module, and the execution end responds to the street lamp fault signals and the map positioning signals to display street lamp position information. The technology enables managers to accurately know the real-time running condition of the urban lighting street lamp, and has the advantage of timely feeding back street lamp fault information.

Description

Intelligent maintenance system applied to urban illumination

Technical Field

The invention relates to the field of urban illumination street lamps, in particular to an intelligent maintenance system applied to urban illumination.

Background

Urban lighting is an important urban infrastructure, and has important effects on guaranteeing urban traffic safety and social security, improving urban functions and improving the living environment of people. At present, with the development of times, the modernization construction pace is accelerated continuously, and the distribution range of the urban illumination street lamps is wider and wider.

In the use process of the urban illumination street lamp, the street lamp circuit is short-circuited, broken or unstable in voltage, which can cause the street lamp fault, and the most intuitive street lamp fault reaction is as follows: the street light is not lit or flashes.

However, in the existing urban illumination street lamp, the street lamp is not bright or flickers caused by short circuit, broken circuit or unstable voltage of the street lamp circuit are mainly inspected regularly by a manager to find and process equipment faults, and the problems that the manager cannot accurately know the operation condition of urban illumination in time and street lamp fault information is not fed back in time exist because the management task is heavy and the informatization management level is insufficient to cause operation and maintenance difficulty.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide the intelligent maintenance system applied to urban illumination, so that a manager can accurately know the real-time running condition of the urban illumination street lamp, and the intelligent maintenance system has the advantage of timely feeding back street lamp fault information.

The technical scheme adopted by the invention is realized as follows: an intelligent maintenance system applied to urban illumination comprises a detection module, a control terminal and an execution terminal;

the detection module is used for detecting whether the street lamp is in fault or not, and sending a street lamp fault signal to the control terminal when the detection module detects the street lamp fault;

the control terminal is electrically connected with the detection module and comprises a central processing unit, a database, an alarm module, a distribution module and a map module, wherein the database, the alarm module and the map module are all coupled with the central processing unit, and the central processing unit responds to a street lamp fault signal to send the street lamp fault signal to the database, the alarm module and the map module;

the control terminal responds to a street lamp fault signal to generate street lamp fault information which is stored in the database and is associated with the pre-stored street lamp position information; the alarm module responds to the street lamp fault signal to send out an alarm; the central processing unit calls street lamp position information and fault information of the database through the map module and generates map signals according to the street lamp position information, the distribution module is coupled to the map module and is used for distributing the fault information and the map positioning signals of the street lamps to the execution end to remind maintenance personnel.

By adopting the technical scheme, when the detection module detects that the street lamp has a fault, the detection module generates a street lamp fault signal, the street lamp fault signal is sent to the central processing unit, the central processing unit respectively sends the street lamp fault signal to the alarm module, the alarm module responds to the street lamp fault signal to send an alarm, meanwhile, the control terminal generates street lamp fault information and stores the street lamp fault information into the database, the map module calls the position information and the fault information of the street lamp from the database after responding to the street lamp fault signal and generates a map positioning signal according to the position information of the street lamp, the map module sends the map positioning signal and the street lamp fault information to the distribution module, and the distribution module distributes the map positioning signal and the street lamp fault information to the same execution end to remind maintenance personnel of maintaining; management personnel patrol is replaced by an information management mode, so that the management personnel can accurately know the real-time running condition of the urban lighting street lamp, street lamp faults can be fed back to the control terminal in real time, management tasks are reduced, and operation and maintenance cost is reduced.

As a further improvement of the present invention, the execution end includes an inquiry module, a message pushing module and a feedback module, the inquiry module is used for inquiring parameter information of the street lamps in the database, the message pushing module responds to the map positioning signal and pushes a message to display street lamp position information, and the feedback module is used for sending a feedback maintenance signal to the control terminal after fault processing.

Through adopting foretell technical scheme, during the street lamp trouble, street lamp fault signal and map positioning signal send the message propelling movement module to the execution end, show street lamp positional information through the mode of message propelling movement, maintenance person carries out the accurate positioning to the street lamp through street lamp positional information, when maintenance person goes to the scene and handles the street lamp trouble, at first inquire the parameter information of street lamp through the inquiry module, in order to obtain the model isoparametric of street lamp, in order to maintain the street lamp, send feedback maintenance signal feedback to control terminal through feedback module after the maintenance, in order to make managers know trouble street lamp with the maintenance, and relieve the alarm of alarm module, database storage maintenance information simultaneously.

As a further improvement of the present invention, the execution end further comprises an identification module, and the identification module is electrically connected to the query module and the feedback module;

the street lamp is provided with a two-dimension code, the identification module is used for identifying the two-dimension code so as to send an identification signal to the query module and the feedback module, and the query module and the feedback module respond to the identification signal so as to be started.

Through adopting foretell technical scheme, when maintenance personal got to on-the-spot maintenance, maintenance personal started inquiry module and feedback module through the mode that identification module read the two-dimensional code, the parameter information that gets into the street lamp through clicking inquiry module, then maintain the trouble street lamp, send feedback maintenance signal feedback to control terminal through feedback module after the maintenance, through the mode that reads the two-dimensional code on-the-spot inquiry module and feedback module of starting, and then play standard maintenance personal's effect, convenient management.

As a further improvement of the present invention, the message pushing module includes a confirmation processing unit, a non-confirmation processing unit and a determination unit, wherein the confirmation processing unit and the non-confirmation processing unit are both coupled to the determination unit, and the determination unit is configured to determine whether to confirm to process the street lamp fault so as to send the processing signal.

By adopting the technical scheme, after the maintenance personnel select the confirmation processing unit or the non-confirmation processing unit, the judgment unit judges the processing signal, when the maintenance personnel select the confirmation processing unit, the judgment unit sends the processing signal to the control terminal to be stored in the database, when the maintenance personnel select the non-confirmation processing unit, the judgment unit sends the processing signal to the control terminal, and the control terminal redistributes the street lamp fault signal to another execution end.

As a further improvement of the present invention, the determination unit is coupled with a display module, the display module is coupled with the central processing unit, the display module is used for displaying whether the execution end processes the street lamp fault, and the display module responds to the processing signal and sends the processing signal to the central processing unit.

By adopting the technical scheme, whether the executing end processes the street lamp fault or not is displayed through the display module, so that a manager can conveniently check whether a maintenance worker processes the street lamp fault or not.

As a further improvement of the present invention, the message pushing module further includes a delay unit, the determining unit and the display module are both coupled to the delay unit, when both the confirmation processing unit and the non-confirmation processing unit do not respond, the delay unit starts and sends a delay signal to the display module, the display module displays that the execution end does not respond and generates a delay signal to the central processing unit, and the central processing unit responds to the delay signal and redistributes the street lamp fault signal.

By adopting the technical scheme, when the confirmation processing unit and the non-confirmation processing unit do not respond, the delay unit is started and sends the delay signal to the central processing unit for redistribution, and the street lamp fault signal is redistributed to another execution end.

As a further improvement of the invention, the control terminal further comprises an alarm releasing module and an updating module, wherein the alarm releasing module responds to the feedback maintenance signal to release the alarm of the alarm module, and the updating module responds to the feedback maintenance signal to update the maintenance information of the database.

Through adopting foretell technical scheme, street lamp trouble maintenance back, maintenance person sends feedback maintenance signal to relieving the alarm module through feedback module, relieves control terminal's alarm through relieving the alarm module for managers knows that current street lamp trouble has been got rid of, and feedback module sends feedback maintenance signal to update the module simultaneously, and maintenance information conveys to the database through update the module and saves.

As a further improvement of the present invention, the detection module includes a short circuit detection unit, an open circuit detection unit, a high-low voltage detection unit and a signal acquisition unit, and the short circuit detection unit, the open circuit detection unit and the high-low voltage detection unit are all coupled to the signal acquisition unit; the short circuit detection unit is used for detecting the short circuit of the street lamp circuit to send a short circuit signal, the open circuit detection unit is used for detecting the open circuit of the street lamp circuit to send an open circuit signal, and the high-low voltage detection unit is used for detecting the voltage fluctuation of the street lamp circuit to send a voltage fluctuation signal; the signal acquisition unit responds to the short circuit signal, the open circuit signal and the voltage fluctuation signal, and is coupled to the central processing unit.

By adopting the technical scheme, the short circuit, the open circuit and the voltage fluctuation of the street lamp circuit are respectively detected by the short circuit detection unit, the open circuit detection unit and the high-low voltage detection unit, so that the reasons of flashing and unlightness of the street lamp can be conveniently checked.

In conclusion, the invention has the following beneficial effects:

1. the mode that whether the street lamp is in fault or not is detected by the detection module to replace patrol of managers so as to improve the informatization management level of the lighting street lamp, so that the managers can accurately know the real-time running condition of the urban lighting street lamp, and the street lamp fault can be fed back to the control terminal in real time, thereby lightening the management task and reducing the operation and maintenance cost;

2. when the maintenance personnel go to the field maintenance, the maintenance personnel start the query module and the feedback module through the mode that identification module read the two-dimensional code, parameter information that gets into the street lamp through clicking the query module, then maintain the trouble street lamp, send feedback maintenance signal feedback to control terminal through the feedback module after the maintenance, through start query module and feedback module in the mode that reads the two-dimensional code on the scene, just can relieve the inseparable of alarm module, and then play standard maintenance personnel's effect, convenient management.

Drawings

FIG. 1 is an overall schematic block diagram of the present invention;

FIG. 2 is a block diagram illustrating the connection between a message module and a control terminal according to the present invention;

in the figure: 1. a street lamp; 11. a street lamp circuit; 2. a detection module; 21. a short circuit detection unit; 22. a disconnection detection unit; 23. a high-low voltage detection unit; 24. a signal acquisition unit; 3. a control terminal; 31. a central processing unit; 32. a wireless transceiver module; 33. a database; 34. an alarm module; 35. a map module; 36. a disarm module; 37. an update module; 38. a distribution module; 39. a display module; 4. an execution end; 41. a query module; 42. a message push module; 43. a feedback module; 44. an identification module; 421. a confirmation processing unit; 422. a confirmation non-processing unit; 423. a judgment unit; 424. and a delay unit.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The utility model provides an intelligent maintenance system for urban illumination, as shown in figure 1, includes detection module 2 that is used for detecting street lamp 1 whether trouble, still includes control terminal 3 and execution end 4, and wherein, detection module 2 is used for detecting the short circuit of street lamp 1, opens circuit or voltage is unstable.

As shown in fig. 1, the detection module 2 includes a short circuit detection unit 21, an open circuit detection unit 22, a high-low voltage detection unit 23, and three reminding units (not shown in the figure), and the short circuit detection unit 21, the open circuit detection unit 22, and the high-low voltage detection unit 23 are respectively coupled to the three reminding units, which is to be simply understood that each detection unit is coupled to one reminding unit. The short-circuit detection unit 21, the open circuit detection unit 22 and the high-low voltage detection unit 23 are respectively used for detecting whether the street lamp circuit 11 is short-circuited, open-circuited or unstable in voltage. When the street lamp 1 is short-circuited, the short-circuit detection unit 21 generates a short-circuit signal and sends the short-circuit signal to the reminding unit, and the reminding unit responds to the short-circuit signal and gives an alarm in a light-emitting mode; when the street lamp 1 is disconnected, the disconnection detection unit 21 generates a disconnection signal and sends the disconnection signal to the reminding unit, and the reminding unit responds to the disconnection signal and gives an alarm in a light-emitting mode; when the voltage of the street lamp 1 fluctuates, the high-low voltage detection unit 23 generates a voltage fluctuation signal and sends the voltage fluctuation signal to the reminding unit, and the reminding unit responds to the voltage fluctuation signal and gives an alarm in a light-emitting mode.

As shown in fig. 1, the detection module 2 further includes a signal acquisition unit 24, the signal acquisition unit 24 includes a CMOS data acquisition device, a chip model of the CMOS data acquisition device is PCF8591, and the three reminding units are respectively coupled to the PCF859 chip. The short circuit signal, the open circuit signal and the voltage fluctuation signal are transmitted to the PCF8591 chip, and the PCF8591 chip responds to the short circuit signal, the open circuit signal and the voltage fluctuation signal to generate a street lamp fault signal and transmit the street lamp fault signal to the control terminal 3.

As shown in fig. 1, the control terminal 3 includes a central processing unit 31, a wireless transceiver module 32 for implementing signal transmission between the central processing unit 31 and the signal acquisition unit 24, a database 33 coupled to the central processing unit 31, an alarm module 34, and a map module 35, wherein the map module 35 is further coupled to the database 33.

As shown in fig. 1, the wireless transceiver module 32 includes a transmitting end and a receiving end, the transmitting end of the wireless transceiver module 32 is coupled to the PCF8591 chip, and the receiving end of the wireless transceiver module 32 is coupled to the central processing unit 31. The central processing unit 31 is a single chip microcomputer, and the database 33 stores the position information and the parameter information of the street lamp 1.

When the street lamp 1 is short-circuited or broken or the voltage of the street lamp 1 is unstable, the detection module 2 generates a street lamp fault signal, the street lamp fault signal is sent to the control terminal 3 through the wireless transceiving module 32, and the central processing unit 31 responds to the street lamp fault signal to generate street lamp fault information which is stored in the database 33 and is associated with pre-stored street lamp position information; meanwhile, the central processing unit 31 responds to the street lamp fault signal to send a street lamp fault signal to the alarm module 34 and the map module 35, the alarm module 34 responds to the street lamp fault signal to send an alarm, the map module 35 responds to the street lamp fault signal and retrieves the position information and the fault information of the street lamp 1 in the database 33, and generates a map positioning signal from the position information of the street lamp 1 to send the street lamp fault signal and the map positioning signal.

As shown in fig. 1, the distribution module 38 is coupled to the map module 35, the distribution module 38 receives the street lamp fault signal and the map location signal and distributes the street lamp fault signal and the map location signal to the same execution terminal 4, and the execution terminal 4 responds to the street lamp fault signal and the map location signal to display the location information of the street lamp 1. In this embodiment, the execution end 4 may be a mobile phone used by a maintenance worker.

As shown in fig. 1, the control terminal 3 further includes an alarm deactivation module and an update module 37, the alarm deactivation module is coupled to the alarm module 34, and the alarm deactivation module is used for deactivating the alarm of the alarm module 36; the updating module 37 is coupled to the database 33, and the updating module 37 is used for updating the maintenance information of the database 33.

As shown in fig. 1, the execution end 4 includes a query module 41, a message pushing module 42 and a feedback module 43, and the query module 41, the message pushing module 42 and the feedback module 43 are installed on the execution end 4 in an APP integrated manner. The query module 41 is coupled to the database 33, and the query module 41 is configured to query the street lamp 1 parameter information in the database 33; the message pushing module 42 is coupled to the distribution module 38, and the message pushing module 42 responds to the map positioning signal and pushes a message to display the position information of the street lamp 1, so as to remind maintenance personnel of the fault of the street lamp 1; the feedback module 43 is coupled to the alarm deactivation module 36 and the update module 37 of the control terminal 3, the feedback module 43 is configured to send a feedback maintenance signal to the alarm deactivation module 36 and the update module 37 after fault processing, the alarm deactivation module 36 responds to the feedback maintenance signal and sends an alarm deactivation signal to the alarm module 34, and the alarm module 34 responds to the alarm deactivation signal to deactivate the alarm; the update module 37 is responsive to the feedback repair signal and sends an update signal to the database 33, the database 33 being responsive to the update signal to update the repair information of the database 33.

As shown in fig. 1, the executing terminal 4 further includes an identification module 44, the identification module 44 is coupled to the query module 41 and the feedback module 43, a two-dimensional code is arranged on the street lamp 1, the identification module 44 is configured to identify the two-dimensional code to send an identification signal to the query module 41 and the feedback module 43, and the query module 41 and the feedback module 43 are activated in response to the identification signal. After the query module 41 and the feedback module 43 are started, the worker clicks the query module 41 to obtain the parameter information of the street lamp 1 in the database 33, and further knows the component parameters of the street lamp 1, so as to maintain the street lamp 1, after the maintenance is completed, the maintenance worker clicks the feedback module 43, the execution end 4 pops up a feedback table for the maintenance worker to fill in the maintenance information and submit, and after the maintenance is submitted, the feedback module 43 sends a feedback maintenance signal to the alarm releasing module 36 and the updating module 37.

As shown in fig. 2, the message pushing module 42 includes a confirmation processing unit 421, a non-confirmation processing unit 422, and a determination unit 423, wherein the confirmation processing unit 421 and the non-confirmation processing unit 422 are both coupled to the determination unit 423, and the determination unit 423 is used for determining whether to confirm to process the fault of the street lamp 1 to send the processing signal. The determining unit 423 is coupled with a display module 39, the display module 39 is coupled with the central processing unit 31, the display module 39 is used for displaying whether the executing terminal 4 processes the fault of the street lamp 1, and the display module 39 responds to the processing signal and sends the processing signal to the central processing unit 31.

As shown in fig. 1 and fig. 2, after the street lamp fault signal is received by the execution terminal 4, the maintenance personnel can select to confirm or not to confirm, and when the confirmation process is selected, the confirmation processing unit 421 can be clicked to generate a processing signal, the processing signal is sent to the judgment unit 423 for judgment, and the processing signal is sent to the display module 39, the display module 39 responds to the processing signal to display that the execution terminal 4 processes the street lamp 1 fault, and the processing signal is sent to the central processing unit 31, and the central processing unit 31 sends the processing signal to the database 33 for storage. When the maintenance personnel do not process the street lamp, the non-processing unit 422 can be clicked to confirm, a processing signal is generated, the processing signal is sent to the judging unit 423 for judgment, the processing signal is sent to the display module 39, the display module 39 responds to the processing signal to display that the execution terminal 4 does not process the street lamp 1 fault, the processing signal is sent to the central processing unit 31, the central processing unit 31 sends the processing signal to the database 33 and the map module 35 respectively, the database 33 stores the processing information, the map module 35 sends the street lamp fault signal and the map positioning signal to the distribution module 38 again, and the distribution module 38 redistributes the street lamp fault signal and the map positioning signal to the other execution terminal 4.

As shown in fig. 2, the message pushing module 42 further includes a delay unit 424, the determining unit 423 and the display module 39 are both coupled to the delay unit 424, when both the processing unit 421 and the non-processing unit 422 are confirmed to be non-responsive, the delay unit 424 starts and sends a delay signal to the display module 39, the display module 39 displays that the executing terminal 4 is not responsive and generates a delay signal to the central processing unit 31, and the central processing unit 31 responds to the delay signal and redistributes the street lamp fault signal.

The overall working process is as follows: when the detection module 2 detects that the street lamp 1 has a fault due to a short circuit, an open circuit or unstable voltage, the detection module 2 generates a street lamp fault signal, and the street lamp fault signal is transmitted to the central processing unit 31 through the wireless transceiver module 32.

The central processing unit 31 sends street lamp fault signals to the alarm module 34, the database 33 and the map module 35 respectively, the alarm module 34 responds to the street lamp fault signals and gives an alarm, the database 33 responds to the street lamp fault signals to generate street lamp fault information, the street lamp fault information is stored in the database 33, the map module 35 responds to the street lamp fault signals, then position information of the street lamps 1 is called from the database 33 and combined with a map to generate a map positioning signal, the map module 35 sends the map positioning signal and the street lamp fault signals to the distribution module 38, and the distribution module 38 distributes the map positioning signal and the street lamp fault signals to the same execution end 4. After the execution terminal 4 receives the map positioning signal and the street lamp fault signal, the message pushing module 42 pushes a message to display the position information of the street lamp 1, so as to remind maintenance personnel to maintain.

After the executive terminal 4 receives the street lamp fault signal, the maintenance personnel can select to confirm processing or not to confirm processing, when the confirmation processing is selected, the confirmation processing unit 421 can be clicked to generate a processing signal, the processing signal is sent to the judging unit 423 for judgment, the processing signal is sent to the display module 39, the display module 39 responds to the processing signal to display that the executive terminal 4 processes the street lamp 1 fault, the processing signal is sent to the central processing unit 31, and the central processing unit 31 sends the processing signal to the database 33 for storage; when the maintenance personnel do not process the street lamp, the non-processing unit 422 can be clicked to confirm, a processing signal is generated, the processing signal is sent to the judging unit 423 for judgment, the processing signal is sent to the display module 39, the display module 39 responds to the processing signal to display that the executive terminal 4 does not process the street lamp 1 fault, the processing signal is sent to the central processing unit 31, the central processing unit 31 sends the processing signal to the database 33 and the map module 35 respectively, the database 33 stores the processing information, the map module 35 sends the street lamp fault signal and the map positioning signal to the distribution module 38 again, and the distribution module 38 redistributes the street lamp fault signal and the map positioning signal to the other executive terminal 4; when both the confirmation processing unit 421 and the non-confirmation processing unit 422 have no response, the delay unit 424 starts and sends a delay signal to the display module 39, the display module 39 displays that the execution terminal 4 has no response and generates a delay signal to the central processing unit 31, and the central processing unit 31 responds to the delay signal and redistributes the street lamp fault signal to another execution terminal 4.

During maintenance, a maintenance person starts the query module 41 and the feedback module 43 by scanning the two-dimensional code on the street lamp 1, the parameter information of the street lamp 1 in the database 33 is read by the query module 41 so as to be convenient for maintaining the street lamp 1, after the maintenance is finished, the maintenance person clicks the feedback module 43, the execution end 4 pops up a feedback table for the maintenance person to fill in and submit the maintenance information, and after the maintenance is finished, the feedback module 43 sends a feedback maintenance signal to the alarm releasing module 36 and the updating module 37, so that the alarm of the control terminal 3 is released and the maintenance information of the database 33 is updated.

The above-mentioned embodiments are merely illustrative and not restrictive, and those skilled in the art can make modifications to the embodiments without inventive contribution as required after reading the present specification, but only protected by the patent laws within the scope of the claims.

Claims

1. The utility model provides an intelligent maintenance system for urban lighting which characterized in that: the device comprises a detection module (2), a control terminal (3) and an execution terminal (4);

the detection module (2) is used for detecting whether the street lamp (1) is in fault or not, and sending a street lamp fault signal to the control terminal (3) when the detection module (2) detects that the street lamp (1) is in fault;

the control terminal (3) is electrically connected to the detection module (2), the control terminal (3) comprises a central processing unit (31), a database (33), an alarm module (34), a distribution module (38) and a map module (35), the database (33), the alarm module (34) and the map module (35) are all coupled to the central processing unit (31), and the central processing unit (31) responds to a street lamp fault signal to send the street lamp fault signal to the database (33), the alarm module (34) and the map module (35);

the database (33) stores position information and parameter information of street lamps (1), and the control terminal (3) responds to street lamp fault signals to generate street lamp fault information which is stored in the database (33) and is associated with the position information of the pre-stored street lamps (1); the alarm module (34) is responsive to a street light fault signal to issue an alarm; the central processing unit (31) calls street lamp position information and fault information of the database (33) through the map module (35) and generates map signals according to the position information of the street lamps (1), the distribution module (38) is coupled to the map module (35), and the distribution module (38) is used for distributing the fault information and the map positioning signals of the street lamps (1) to the execution end (4) to remind maintenance personnel.

2. The intelligent maintenance system applied to urban lighting according to claim 1, wherein: the execution end (4) comprises an inquiry module (41), an information pushing module (42) and a feedback module (43), wherein the inquiry module (41) is used for inquiring parameter information of the street lamp (1) in the database (33), the information pushing module (42) responds to a map positioning signal and pushes information to display position information of the street lamp (1), and the feedback module (43) is used for sending a feedback maintenance signal to the control terminal (3) after fault processing.

3. The intelligent maintenance system applied to urban lighting according to claim 2, wherein: the execution end (4) further comprises an identification module (44), and the identification module (44) is electrically connected with the query module (41) and the feedback module (43);

the street lamp (1) is provided with a two-dimensional code, the identification module (44) is used for identifying the two-dimensional code so as to send an identification signal to the query module (41) and the feedback module (43), and the query module (41) and the feedback module (43) respond to the identification signal to start.

4. The intelligent maintenance system applied to urban lighting according to claim 3, wherein: the message pushing module (42) comprises a confirmation processing unit (421), a non-confirmation processing unit (422) and a judgment unit (423), wherein the confirmation processing unit (421) and the non-confirmation processing unit (422) are both coupled to the judgment unit (423), and the judgment unit (423) is used for judging whether to confirm the processing of the fault of the street lamp (1) so as to send a processing signal.

5. The intelligent maintenance system applied to urban lighting according to claim 4, wherein: the judging unit (423) is coupled with a display module (39), the display module (39) is coupled with the central processing unit (31), the display module (39) is used for displaying whether the executing end (4) processes the fault of the street lamp (1), and the display module (39) responds to the processing signal and sends the processing signal to the central processing unit (31).

6. The intelligent maintenance system applied to urban lighting according to claim 5, wherein: the message pushing module (42) further comprises a delay unit (424), the judging unit (423) and the display module (39) are both coupled to the delay unit (424), when the confirmation processing unit (421) and the confirmation non-processing unit (422) do not respond, the delay unit (424) starts and sends a delay signal to the display module (39), the display module (39) displays that the execution terminal (4) does not respond and generates a delay signal to the central processing unit (31), and the central processing unit (31) responds to the delay signal and redistributes the street lamp fault signal.

7. The intelligent maintenance system applied to urban lighting according to claim 6, wherein: the control terminal (3) further comprises an alarm releasing module and an updating module (37), the alarm releasing module (36) responds to the feedback maintenance signal to release the alarm of the alarm module (36), and the updating module (37) responds to the feedback maintenance signal to update the maintenance information of the database (33).

8. The intelligent maintenance system applied to urban lighting according to claim 1, wherein: the detection module (2) comprises a short circuit detection unit (21), an open circuit detection unit (22), a high-low voltage detection unit (23) and a signal acquisition unit (24), wherein the short circuit detection unit (21), the open circuit detection unit (22) and the high-low voltage detection unit are all coupled to the signal acquisition unit (24); the short circuit detection unit (21) is used for detecting the short circuit of the street lamp (1) to send a short circuit signal, the open circuit detection unit (22) is used for detecting the open circuit of the street lamp (1) to send an open circuit signal, and the high-low voltage detection unit (23) is used for detecting the voltage fluctuation of the street lamp (1) circuit to send a voltage fluctuation signal; the signal acquisition unit (24) is responsive to the short circuit signal, the open circuit signal and the voltage fluctuation signal, and the signal acquisition unit (24) is coupled to the central processing unit (31).