CN213185626U

CN213185626U - Wisdom lamp pole switch board

Info

Publication number: CN213185626U
Application number: CN202020554903.5U
Authority: CN
Inventors: 周显俊; 李昭强; 蓝国辉
Original assignee: Sunfly Electronics Holdings Co ltd
Current assignee: Shenghui Holdings Limited
Priority date: 2020-04-15
Filing date: 2020-04-15
Publication date: 2021-05-11
Anticipated expiration: 2030-04-15

Abstract

The application relates to a wisdom lamp pole switch board includes: the intelligent cabinet comprises a cabinet body, a monitoring device, a collecting device, a rectifying device and an inlet and outlet control device; the monitoring device is used for sending a control instruction to the rectifying device and the incoming and outgoing line control device through the collecting device; the incoming and outgoing line control device is used for selecting a corresponding power supply according to the control instruction and transmitting the alternating voltage to the rectifying device; the rectifying device is used for rectifying the alternating-current voltage, converting the alternating-current voltage into direct-current voltage, and sending the direct-current voltage to the direct-current driving module through the inlet and outlet control device, and the direct-current voltage is used for acting on the direct-current driving module to supply power to the intelligent lamp pole. This wisdom lamp pole switch board adopts the high voltage direct current power supply, can solve remote power supply transmission line and decrease greatly, and the unbalanced problem of load can not produce harmonic current, practices thrift the cable cost.

Description

Wisdom lamp pole switch board

Technical Field

The application relates to the technical field of power supply and control, especially relates to a wisdom lamp pole switch board.

Background

Under the condition that LED energy-saving street lamps are gradually popularized, smart city construction, the technology of the Internet of things and the like is rapidly developed, the multifunctional smart street lamp pole gradually replaces the traditional street lamp, and however, the problem that how to supply power to the smart lamp pole in a high-efficiency mode is urgently needed to be solved is also formed.

At present, urban road lighting (including lamp posts) is generally supplied with power by a special transformer for street lamps on an urban public network, a three-phase four-wire system mode is adopted to distribute electric energy to the street lamps through an alternating-current power distribution cabinet, each phase of load needs to be distributed uniformly, otherwise zero sequence voltage is generated to shift zero points, one phase of voltage is reduced, the other phase of voltage is increased, and voltage deviation is increased. In addition, the existing street lamp is supplied with power by alternating current, a certain harmonic current exists in a road lighting circuit, the section of a neutral line of a cable needs to be equal to that of a phase line in order to ensure the operation safety and reduce the line loss, the problem of large line loss is difficult to avoid during long-distance power supply, and the problems of electricity stealing of merchants and residents nearby the street lamp are difficult to avoid; in rainy weather, the street lamp easily leaks electricity to bring the risk of electrocution.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide a wisdom lamp pole switch board to the technical problem that current remote power supply line lost greatly and have the electric leakage risk.

The embodiment of the utility model provides a wisdom lamp pole switch board, include: the intelligent cabinet comprises a cabinet body, a monitoring device, a collecting device, a rectifying device and an inlet and outlet control device; the monitoring device, the collecting device, the rectifying device and the wire inlet and outlet control device are respectively arranged in the cabinet body, the monitoring device is sequentially connected with the collecting device, the rectifying device and the wire inlet and outlet control device, the collecting device is connected with the wire inlet and outlet control device, and the wire inlet and outlet control device is used for being respectively connected with a power supply and a direct current driving module of the intelligent lamp pole;

the monitoring device is used for sending a control instruction to the rectifying device and the access control device through the acquisition device;

the access control device is used for selecting a corresponding power supply according to the control instruction to transmit the alternating-current voltage to the rectifying device;

the rectifying device is used for rectifying the alternating-current voltage, converting the alternating-current voltage into direct-current voltage, and sending the direct-current voltage to the direct-current driving module through the incoming and outgoing line control device, wherein the direct-current voltage is used for acting on the direct-current driving module to supply power for the intelligent lamp pole.

The utility model provides an embodiment of the utility model provides a power distribution of wisdom lamp pole, including the cabinet body, set up monitoring device, collection system, fairing and business turn over line control device in the cabinet body inside respectively, monitoring device connects gradually collection system, fairing and business turn over line control device, and collection system connects business turn over line control device, and business turn over line control device is used for connecting power supply and the DC drive module of wisdom lamp pole respectively; the monitoring device sends the control instruction to the rectifying device and the incoming and outgoing line control device through the acquisition device, the incoming and outgoing line control device selects the power supply according to the control instruction, the alternating voltage is transmitted to the rectifying device, the rectifying device rectifies the alternating voltage to generate direct voltage, and then the direct voltage is transmitted to the direct current driving module of the intelligent lamp pole through the incoming and outgoing line control device, so that power is supplied to the intelligent lamp pole. This wisdom lamp pole switch board adopts the high voltage direct current power supply, can solve remote power supply transmission line and decrease greatly, and the problem of unbalanced load can not produce harmonic current, practices thrift the cable cost, can avoid the rainy weather street lamp electric leakage and the risk of electrocution that brings, guarantees pedestrian's life safety.

The cabinet further comprises one or more heat dissipation devices, and the heat dissipation devices are arranged on the side wall of the cabinet body; the heat dissipation device is connected with the monitoring device;

when the temperature in the cabinet body is higher than a first preset temperature, the monitoring device is used for driving the heat dissipation device to be started;

and when the temperature in the cabinet body is lower than the second preset temperature, the monitoring device is used for driving the heat dissipation device to be closed.

Furthermore, the monitoring device comprises a first main controller, and a temperature controller, a first communication module, an indicator light, a three-phase digital display voltmeter and a direct-current voltage pointer which are respectively connected with the first main controller; the first main controller is respectively connected with the acquisition device and the server through the first communication module;

the first main controller is used for receiving a control instruction sent by the server and sending the control instruction to the acquisition device; receiving power supply data sent by the acquisition device, and transmitting the power supply data to the server;

the temperature controller is used for connecting the heat dissipation device and controlling the opening or closing of the heat dissipation device;

the indicating lamp is used for indicating the working state of the intelligent lamp pole distribution box;

the three-phase digital display voltmeter is used for indicating the alternating voltage of the power supply;

the direct-current voltage pointer meter is used for displaying the direct-current voltage.

Further, the indicator lamp comprises a work indicator lamp, a fault indicator lamp and a power supply indicator lamp.

Further, the collection device includes: the system comprises a second main controller, an input module, an output module, an input module, a second communication module and an analog input module, wherein the input module, the output module, the input module, the second communication module and the analog input module are respectively connected with the second main controller; the opening module is respectively connected with the working indicator light and the fault indicator light and is used for controlling the opening or closing of the working indicator light and/or the fault indicator light;

the opening module is connected with the access line control device and used for acquiring opening and closing state information of the access line control device and sending the opening and closing state information to the first main controller through the second communication module;

the analog input module is connected with the rectifying device and used for acquiring power supply data of the rectifying device and sending the power supply data to the first main controller through the second communication module.

Furthermore, the acquisition device also comprises a display module and a first power supply module which are respectively connected with the second main controller.

Further, the rectifying device comprises a plurality of K6B20 power supply modules.

Furthermore, the wire inlet and outlet control device comprises a wire inlet switch, a wire outlet switch and a third communication module;

the third communication module is connected with the second communication module;

the incoming line switch is respectively connected with a power supply and the switching-in module;

the outgoing switch is respectively connected with the incoming module and the DC driving module of the intelligent lamp pole.

Further, the incoming line switch comprises a main incoming line switch and a standby incoming line switch, wherein the main incoming line switch and the standby incoming line switch are ac miniature circuit breakers.

Further, the outgoing switch is a direct-current miniature circuit breaker.

Further, still include intelligent lock, intelligent lock quantity is two, sets up respectively on the qianmen of the cabinet body and the back door.

Drawings

Fig. 1 is a diagram of an embodiment of the intelligent lamp pole power distribution cabinet of the present invention;

fig. 2 is a diagram of an embodiment of the intelligent lamp pole power distribution cabinet of the present invention;

fig. 3 is a diagram of an embodiment of the smart light pole distribution cabinet of the present invention;

fig. 4 is a diagram of an embodiment of the monitoring device of the smart lamp pole distribution cabinet of the present invention;

fig. 5 is a diagram of an embodiment of the collecting device of the intelligent lamp pole distribution cabinet of the present invention;

fig. 6 is a diagram of an embodiment of an access control device of a smart lamp pole distribution cabinet according to the present invention;

fig. 7 is a diagram of an embodiment of the smart light pole distribution cabinet of the present invention;

fig. 8 is a diagram of an embodiment of the utility model discloses a wisdom lamp pole switch board.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The utility model provides a smart lamp pole power distribution cabinet; fig. 1 is a diagram of an embodiment of the utility model discloses wisdom lamp pole switch board. As shown in fig. 1, a wisdom lamp pole switch board includes: the cabinet body 10, the monitoring device 20, the collecting device 30, the rectifying device 40 and the incoming and outgoing line control device 50; the monitoring device 20, the collecting device 30, the rectifying device 40 and the incoming and outgoing line control device 50 are respectively arranged in the cabinet body 10, the monitoring device 20 is sequentially connected with the collecting device 30, the rectifying device 40 and the incoming and outgoing line control device 50, the collecting device 30 is connected with the incoming and outgoing line control device 50, and the incoming and outgoing line control device 50 is used for being respectively connected with a power supply and a direct current driving module of a smart lamp pole; the monitoring device 20 is used for sending a control instruction to the rectifying device 40 and the incoming and outgoing line control device 50 through the acquisition device 30; the access control device 50 is used for selecting a corresponding power supply according to the control instruction to transmit the alternating-current voltage to the rectifying device 40; the rectifying device 40 is used for rectifying the alternating-current voltage, converting the alternating-current voltage into direct-current voltage, and sending the direct-current voltage to the direct-current driving module through the inlet/outlet control device 50, wherein the direct-current voltage is used for acting on the direct-current driving module to supply power to the intelligent lamp pole.

Specifically, the wisdom lamp pole is usually settled by the road side such as city for fixed street lamp, thereby for road lighting. And wisdom lamp pole switch board is used for providing the setting of power or power supply to instructing the lamp pole, sets up the position aside at the wisdom lamp pole usually, and alternate a certain distance with the wisdom lamp pole. As shown in fig. 2, the smart lamp pole power distribution cabinet includes a cabinet body 10, a monitoring device 20, a collecting device 30, a rectifying device 40, and an incoming and outgoing line control device 50, wherein the monitoring device 20, the collecting device 30, the rectifying device 40, and the incoming and outgoing line control device 50 are respectively disposed in the cabinet body 10; in an alternative embodiment, the cabinet body may be divided into a plurality of cabinet spaces, and the monitoring device 20, the collecting device 30, the rectifying device 40 and the access control device 50 may be distributed in different cabinet spaces, so as to avoid mutual interference of connecting lines and the like between each device, and avoid heat generated by each device during operation from affecting the operation of other devices.

Wherein, the control command is information for controlling the access control device 50 to select the corresponding power supply and instructing the rectifying device 40 to convert the ac voltage provided by the power supply into the appropriate dc power; the control command may be input by a user (e.g., a power manager) through the monitoring device 20, or may be transmitted from a receiving server.

The power supply is used for supplying alternating voltage, and the power supply can be one or more. In a preferred embodiment, the power supply sources include two power supply sources, which are a main power supply source (main power supply source) and a standby power supply source (standby power supply source), and when the main power supply source is in an abnormal condition such as birth failure, the standby power supply source is adopted, so that the intelligent lamp power distribution cabinet is ensured to normally work.

In addition, collection system 30 still is arranged in gathering operating condition such as fairing 40, business turn over line controlling means 50 and the power supply data etc. in the circuit to transmit these power supply data etc. to monitoring device 20, monitoring device 20 can also be with these data transmission to the server, thereby be convenient for power management personnel in time fully know the operating condition etc. of wisdom lamp pole switch board, in order to handle maintenance etc. in time when breaking down etc..

The power supply data comprises alternating current incoming line voltage, current, direct current output voltage and current, and an alternating current incoming line switch on-off state, a direct current incoming line switch on-off state and the like.

The utility model provides an embodiment's wisdom lamp pole distribution is joined in marriage includes cabinet body 10, sets up monitoring device 20, collection device 30, fairing 40 and business turn over line controlling means 50 inside cabinet body 10 respectively, and monitoring device 20 connects gradually collection device 30, fairing 40 and business turn over line controlling means 50, and collection device 30 connects business turn over line controlling means 50, and business turn over line controlling means 50 is used for connecting power supply and the direct current drive module of wisdom lamp pole respectively; monitoring device 20 sends control command to fairing 40 and business turn over line controlling means 50 through collection device 30, and business turn over line controlling means 50 selects power supply according to control command, transmits alternating voltage to fairing 40, and fairing 40 generates direct current voltage with the alternating voltage rectification, then transmits direct current voltage to the DC drive module of wisdom lamp pole through business turn over line controlling means to for the power supply of wisdom lamp pole. This wisdom lamp pole switch board adopts the high voltage direct current power supply, can solve remote power supply transmission line and decrease greatly, and the problem of unbalanced load can not produce harmonic current, practices thrift the cable cost, can avoid the rainy weather street lamp electric leakage and the risk of electrocution that brings, guarantees pedestrian's life safety.

In one embodiment, the cabinet further comprises one or more heat dissipation devices, and the heat dissipation devices are arranged on the side wall of the cabinet body; the heat dissipation device is connected with the monitoring device; when the temperature in the cabinet body is higher than a first preset temperature, the monitoring device is used for driving the heat dissipation device to be started; when the temperature in the cabinet body is lower than the second preset temperature, the monitoring device is used for driving the heat dissipation device to be closed.

Specifically, wisdom lamp pole switch board still includes heat abstractor, and wherein heat abstractor sets up in the lateral wall of the cabinet body, and heat abstractor mainly used drives away the heat that produces in the cabinet body at work, thereby avoids wherein each equipment isothermal overhead to produce incident etc.. Optionally, the number of the heat dissipating devices may be one or more, and may be determined according to comprehensive consideration of power, heat generating capacity, and the like of each device.

In addition, the monitoring device is used for controlling the opening or closing of the heat dissipation device, namely, the monitoring device is opened when the heat is high (the temperature is high) and is closed when the heat is low (the temperature is low). The first preset temperature and the second preset temperature are preset temperature values, and in actual use, the values may change due to seasons, that is, the first preset temperature and the second preset temperature are different in different seasons of spring, summer, autumn and winter.

In an alternative embodiment, the heat dissipation device may be a fan, and the number of the fans may be multiple and are respectively installed at the position of the rear door (i.e. the back door) of the cabinet. Referring to fig. 3, the number of fans 60 is 12, a detachable dust screen is provided in each fan to facilitate cleaning, and the heat pipe principle is utilized to supply air to the lower fan and supply air to the upper fan, so that heat exchange between the inside and the outside of the control cabinet is realized in a sealed state of the intelligent lamp pole power distribution cabinet, clean ambient air in the cabinet is ensured, and the service life of electrical components is prolonged. The start and stop of the fan are automatically controlled by sensing the temperature in the cabinet by the temperature controller monitoring device.

In one embodiment, as shown in fig. 4, the monitoring device 20 includes a first main controller 202, and a temperature controller 204, a first communication module 206, an indicator lamp 208, a three-phase digital display voltmeter 210 and a dc voltage pointer meter 212 respectively connected to the first main controller; the first main controller 202 is connected with the acquisition device 30 and the server through a first communication module 206; the first main controller 202 is configured to receive a control instruction sent by the server, and send the control instruction to the acquisition device 30; receiving power supply data sent by the acquisition device 30, and transmitting the power supply data to the server; the temperature controller 204 is used for connecting the heat dissipation device and controlling the opening or closing of the heat dissipation device; the indicating lamp 208 is used for indicating the working state of the intelligent lamp pole distribution box; the three-phase digital display voltmeter 210 is used for indicating the alternating voltage of the power supply; the dc voltage pointer table 212 is used to display the dc voltage.

In one embodiment, the indicator lights include a work indicator light, a fault indicator light, and a power supply indicator light.

The monitoring device 20 comprises a first main controller 202, a temperature controller 204, a first communication module 206, an indicator lamp 208, a three-phase digital display voltmeter 210 and a direct-current voltage pointer meter 212, wherein the temperature controller 204, the first communication module 206, the indicator lamp 208, the three-phase digital display voltmeter 210 and the direct-current voltage pointer meter are respectively connected with the first main controller; wherein the indicator lights include a work indicator light and a fault indicator light. In an alternative real-time approach, the first master controller 202 may be a 10.2 "touch screen model PM6-M control device with a resolution of 1024 × 600, and 2 RJ45 ethernet communication ports are provided at the back of the device for external network connection and background (e.g., server) communication, and 2 independent serial ports (COM1 and COM2 are both RS485) are provided for communication with the sampling device 30. In addition, the first main controller 202 uses an embedded program to realize functions of alarm viewing, running state, information query, system setting, system configuration, system control and user management.

The work indicator light and the fault indicator light are respectively connected with the acquisition device, and the state indicator light is lightened through the relay output of the acquisition device.

In one embodiment, as shown in fig. 5, the collecting device 30 includes a second main controller 302, an opening module 304, an opening module 306, a second communication module 308 and an analog input module 310, which are respectively connected to the second main controller 302; the opening module 304 is respectively connected with the working indicator light and the fault indicator light, and is used for controlling the on or off of the working indicator light and/or the fault indicator light; the opening module 306 is connected to the access line control device 50, and is configured to collect opening and closing state information of the access line control device 50, and send the opening and closing state information to the first main controller 202 through the second communication module 308; the analog input module 310 is connected to the rectifying device 40, and is configured to collect power supply data of the rectifying device 40 and send the power supply data to the first main controller 202 through the second communication module 308.

In one embodiment, the acquisition device 30 further includes a display module 312 and a first power module 314, each connected to the second master controller 302.

In this embodiment, the second main controller may be an MCU module, where the MCU module employs a high-performance 32-bit DSP chip provided by a texas instrument, has a powerful data processing function, supports at least 16 analog quantity acquisition channels and 32 programmable digital quantity channels, and is a core part of the whole system operation, and controls signal acquisition, output driving, fault indication, remote communication, fault logic determination, and the like of the device. The opening module 304 is a relay opening module; the opening module 306 is connected to the access line control device 50, and is configured to collect opening and closing state information of the access line control device 50, where the response time is less than 10 ms. The analog input module 310 mainly collects two paths of input three-phase alternating current electric quantity (three-phase current and three-phase voltage) and output direct current bus voltage and current values in the power supply. The first power module 314 is to provide stable DC 3.3V, 5V and 24V power supplies for the acquisition device, wherein the first power module 314 adopts a switching power supply supporting AC/DC input, the input side is AC/DC220V, and the output side is DC 5V and 24V output with stability margin. The second communication module 308 mainly functions to transfer the data and the fault information acquired by the acquisition device 30 to the first main controller 202, and supports RS485 serial port communication and TCP/IP industrial ethernet port communication with the rectifying device 40 and the temperature controller 204. The display module 312 may be an LED display module, and is mainly used for acquiring status indications of the device, such as work, fault, and communication.

In one embodiment, the rectifying device includes a plurality of K6B20 power modules.

Specifically, the rectifying device comprises a plurality of K6B20 power modules; in the embodiment, the rectifying unit is composed of 6K 6B20 power modules, and can be connected in parallel according to actual project requirements, the extended power stage adopts a variable-frequency natural resonance soft switching technology and an intelligent control technology, the three-phase input of the extended power stage is rated as 380VAC, and wide voltage input of 323VAC-456VAC is supported; the DC output rating is 20A/234V. The adjustable direct current output range is 194V-286V. Optionally, the rectifying device may have a module communication function, and may communicate with the first main controller 202 through a communication module, for example, transmit module output voltage, output current, and the like, and a working state (protection/fault/normal) signal to the first main controller 202; and the functions of switching on and off, voltage output adjustment, etc. of the rectifying device 40 can be realized by the first main controller 202.

In one embodiment, as shown in fig. 6, the in-out control apparatus 50 includes an in-line switch 502, an out-line switch 504, and a third communication module 506; the third communication module 506 is connected to the second communication module 308; the incoming line switch 502 is respectively connected with the power supply and the switching-in module 306; the outlet switch 504 is respectively connected with the switch-in module 306 and the DC driving module of the intelligent lamp pole.

In one embodiment, the incoming line switch comprises a main incoming line switch and a standby incoming line switch, wherein the main incoming line switch and the standby incoming line switch are alternating current miniature circuit breakers.

In one embodiment, the outlet switch is a dc miniature circuit breaker.

Specifically, as shown in fig. 7, the incoming/outgoing line control device includes 1 main incoming line switch 5020, 1 standby incoming line switch 5022, outgoing line switch 504, and third communication module (i.e., RS485 communication module) 506. The incoming line switch 502 adopts an AC series intelligent miniature circuit breaker with the model number of S3, the outgoing line switch 504 adopts an S3 DC series intelligent miniature circuit breaker, the switching-on and switching-off of an output circuit can be controlled locally or remotely, electric quantity information such as voltage and current is sampled and recorded, and the third communication module 506 is connected. The third communication module 506 is connected to the collecting device 30 for communication, and uploads the states of the in-out

switches

502 and 504, the power information, and the like to the first main controller 202 for display. The in-out

switches

502 and 504 can be controlled to be switched on and off through the interface or the background of the first main controller 202. The outgoing switch 504 is connected to the dc power driving module of the street lamp, and the dimming program is embedded in the first main controller 202 to adjust the output voltage of the rectifying device 40, and then the dimming information is transmitted to the dc power driving module of the street lamp through the manchester code communication technology to perform dimming control. The intelligent miniature circuit breaker is used for realizing local and remote control and uploading records of state information, electric quantity information, fault information and the like. The Manchester coding communication is adopted, a direct current power supply line is used for transmitting signals in the communication, a single lamp controller and a communication cable are not needed, the installation and debugging are convenient, and the technical problem of unstable dimming control can be solved.

In one embodiment, as shown in fig. 8, the cabinet further includes two intelligent locks 70, which are respectively disposed on the front door and the rear door of the cabinet.

Specifically, the built-in communication module of intelligence lock can be connected with first main control unit through communication module, realizes opening or closing the intelligence lock through first main control unit. The cabinet body adopts the outdoor rack of theftproof formula and adds intelligent fingerprint lock, and safety theftproof, destruction prevention can be punched the card, fingerprint or long-range authorization is unblanked.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. The utility model provides a wisdom lamp pole switch board, a serial communication port, includes: the intelligent cabinet comprises a cabinet body, a monitoring device, a collecting device, a rectifying device and an inlet and outlet control device; the monitoring device, the collecting device, the rectifying device and the wire inlet and outlet control device are respectively arranged in the cabinet body, the monitoring device is sequentially connected with the collecting device, the rectifying device and the wire inlet and outlet control device, the collecting device is connected with the wire inlet and outlet control device, and the wire inlet and outlet control device is used for being respectively connected with a power supply and a direct current driving module of the intelligent lamp pole;

2. The intelligent lamp pole power distribution cabinet according to claim 1, further comprising one or more heat dissipation devices, wherein the heat dissipation devices are disposed on the side wall of the cabinet body; the heat dissipation device is connected with the monitoring device;

and when the temperature in the cabinet body is lower than a second preset temperature, the monitoring device is used for driving the heat dissipation device to close.

3. The intelligent lamp pole power distribution cabinet according to claim 2, wherein the monitoring device comprises a first main controller, and a temperature controller, a first communication module, an indicator lamp, a three-phase digital display voltmeter and a direct current voltage pointer meter which are respectively connected with the first main controller; the first main controller is respectively connected with the acquisition device and the server through the first communication module;

4. The smart lamp pole distribution cabinet of claim 3, wherein the indicator lights include a work indicator light, a fault indicator light and a power supply indicator light.

5. The smart light pole power distribution cabinet of claim 4, wherein the collection device comprises: the system comprises a second main controller, an input module, an output module, an input module, a second communication module and an analog input module, wherein the input module, the output module, the input module, the second communication module and the analog input module are respectively connected with the second main controller; the opening module is respectively connected with the working indicator light and the fault indicator light and is used for controlling the opening or closing of the working indicator light and/or the fault indicator light;

6. The smart lamp pole power distribution cabinet of claim 5, wherein the collection device further comprises a display module and a first power module respectively connected with the second main controller.

7. The smart light pole power distribution cabinet of any one of claims 1-6, wherein the rectifying device comprises a plurality of K6B20 power modules.

8. The smart lamp pole distribution cabinet of claim 5 or 6, wherein the access control device comprises an access switch, an outlet switch and a third communication module;

the outgoing switch is respectively connected with the switching-in module and the direct current driving module.

9. The smart pole power distribution cabinet of claim 8, wherein the incoming line switch comprises a main incoming line switch and a standby incoming line switch, wherein the main incoming line switch and the standby incoming line switch are ac micro circuit breakers.

10. The smart light pole power distribution cabinet of claim 9, wherein the outlet switch is a dc miniature circuit breaker.

11. The intelligent lamp pole power distribution cabinet of claim 9, further comprising two intelligent locks respectively disposed on the front door and the rear door of the cabinet body.