CN111726917A - Intelligent city remote power distribution manager and installation method and operation mode thereof - Google Patents

Abstract

The invention discloses an intelligent city remote power distribution manager, which comprises a manager main body, wherein a display screen, an indicator light and a control button are arranged on the upper part of the front view surface of the manager main body, a cover plate is arranged on the lower part of the front view surface of the manager main body, an upper wiring terminal is arranged on the rear side of the cover plate, an antenna interface is arranged below the upper wiring terminal, and a lower wiring terminal is arranged at the lower end of the manager main body, and the intelligent city remote power distribution manager has the advantages that: the intelligent power distribution management system is multifunctional intelligent power distribution management equipment based on the technology of the Internet of things, and can be suitable for multi-scene power management application; the loop current condition and the loop voltage condition can be checked in real time; the state of a loop switch can be remotely checked, the loop switch can be remotely controlled in real time, a loop timing switch strategy can be remotely set, a loop scene can be remotely set, the loop can be remotely controlled to be fully opened or fully closed, the single loop can be remotely controlled to be opened or closed, and the current and voltage conditions can be remotely checked; the remote alarm device can remotely alarm over current and over voltage, remotely upgrade firmware and automatically correct time in a network.

Description

Intelligent city remote power distribution manager and installation method and operation mode thereof

Technical Field

The invention relates to an intelligent urban remote power distribution manager and an installation method and an operation mode thereof, belonging to the technical field of urban landscape lighting systems.

Background

The urban landscape lighting system is a very important link in urban night scene lighting, is a secondary aesthetic creation for the urban night scene, and mainly aims to enhance the embodiment of urban historical humanity, improve the homogenization of the urban night scene lighting, enhance the interaction between citizens and cities, increase the communication between the citizens, guide the citizens to find the beauty of the sides, expect to compliment the cities through light and shadow and scientific means, lead the behaviors of the light-guiding citizens, determine the light presentation of the behaviors of the citizens, and lead the cities to become more beautiful, smart and rich in humanized warmth through the fusion of technology and art. Each citizen can enjoy safe, comfortable and interesting light and shadow environments, the life tracks of people are prolonged by utilizing the technology and the light and shadow, and the spiritual culture life of the citizen is enriched. The existing urban landscape lighting system is complex in control and complex in setting process.

Disclosure of Invention

The technical problem to be solved by the invention is to provide an intelligent city remote power distribution manager, which is a multifunctional intelligent power distribution management device based on the technology of the internet of things, and can be applied to multi-scene power management applications, such as city lightening remote control, enterprise energy management and intelligent street lamp remote management systems.

The invention is realized by the following scheme: the utility model provides a long-range distribution manager in intelligent city, its includes the manager main part, the part is equipped with display screen, pilot lamp and control button on the face of looking forward of manager main part, the part is equipped with the apron under the face of looking forward of manager main part, the rear side of apron is equipped with binding post, it is equipped with antenna interface to go up binding post's below, the lower extreme of manager main part is equipped with down binding post.

The upper wiring terminal comprises eight loop wiring terminals, an AC zero line wiring terminal and an AC live wire wiring terminal, and the wiring terminals are reserved.

The lower wiring terminal comprises eight interactive sensor wiring terminals, and one reserved wiring terminal.

The antenna interface is connected with a GSM antenna.

The manager agent is wirelessly connected to a management platform.

And the management platform is provided with a local loop module and a remote loop module.

The manager main body is internally provided with an overcurrent and overvoltage remote alarm module, a remote firmware upgrading module and a network automatic timing module.

The manager main part with all open two fixed screw holes on the apron, the manager main part with the apron passes through fixed screw connection.

An operation mode of an intelligent city remote power distribution manager comprises the following processes:

the first process is as follows: the loop switch is controlled in real time through 8 loop buttons on the management platform, and then the light on/off of the film area is controlled;

secondly, clicking an intelligent strategy on the management platform to enter a timing strategy page, wherein 8 groups of independent timing settings are supported together, different time strategies can be set for each loop, and the same time strategy can also be set;

and thirdly, setting a loop adding scene strategy through the loop adding strategy of the intelligent strategy navigation bar on the management platform, so that a user can edit a plurality of timing scenes in advance and send different scene lighting modes aiming at different festivals and holidays.

An installation method of an intelligent city remote power distribution manager comprises the following steps:

step one, opening a distribution box, disconnecting a main power supply from an air switch, installing a manager main body in the distribution box, and opening a cover plate on the manager main body;

step two, power connection: respectively connecting any one live wire power supply and the zero wire power supply in the distribution box to an AC zero wire connecting terminal and an AC live wire connecting terminal of the upper connecting terminal, and pressing the connecting terminals by using a screwdriver;

step three, controlling output: connecting eight loop connecting terminals of the upper connecting terminal with loops respectively, and measuring current of eight interactive sensor connecting terminals of the lower connecting terminal connected with the loops;

step four, surface inspection wiring: after wiring is finished, comprehensively checking the circuit, and measuring whether a short circuit exists or not by using a universal meter;

and step five, inserting the equipment SIM card by using the standby mobile phone, testing communication, determining that the mobile phone card has no problem if the mobile phone can browse the webpage normally, and inserting the mobile phone card into the GPRS module of the manager main body.

Recording the serial numbers of the single-lamp concentrators and the positions of the street lamp sections;

step six, equipment power transmission: the equipment is powered on, and the normal operation of a working indicator lamp of the equipment is waited;

seventhly, fixing the GMS antenna and installing a cover plate;

step eight, after the equipment is installed, waiting for debugging.

The invention has the beneficial effects that:

1. in a road lighting application scene, the intelligent city remote power distribution manager can be used for remotely managing the loop control of the street lamps, such as real-time switch and timing switch control, and is matched with a single lamp controller for use, so that the on-off state of each street lamp can be more flexibly and more accurately controlled, and the intelligent city remote power distribution manager can be matched with the single lamp controller of the power carrier module for use, so that each road section or each street lamp can be accurately controlled and managed, the consumption of power energy for road lighting can be reduced through a remote management platform, 20% of operation cost is saved, and the safety of city roads is improved;

2. the intelligent city remote power distribution manager can be used for remotely managing regional power distribution control of landscape lighting in landscape lighting application scenes, such as landscape brightening of parks, squares and commercial places, and remotely managing light power supply conditions of different regions in different time periods; the landscape lighting facilities in different areas can be accurately and remotely managed and controlled, a user can edit and set a timing strategy for lighting areas in multiple scenes through the management platform, different lighting modes are respectively provided for different time periods, different weeks and holidays every day, one-time setting is realized, and the platform is automatically processed;

3. the intelligent city remote power distribution manager can reasonably arrange power supply time management according to the characteristics of buildings in building lighting power supply management and large-scale building lighting application, and simultaneously provides remote state data of power parameters, thereby reducing a large amount of manpower inspection and control cost;

4. the intelligent city remote power distribution manager has the functions of a local loop: the loop current condition and the loop voltage condition can be checked in real time;

5. the intelligent city remote power distribution manager has the remote loop function: the state of a loop switch can be remotely checked, the loop switch can be remotely controlled in real time, a loop timing switch strategy can be remotely set, a loop scene can be remotely set, the loop can be remotely controlled to be fully opened or fully closed, the single loop can be remotely controlled to be opened or closed, and the current and voltage conditions can be remotely checked;

6. the intelligent city remote power distribution manager can perform overcurrent and overvoltage remote alarm, remote firmware upgrade and automatic network timing.

Drawings

Fig. 1 is a schematic front view of a remote power distribution manager of an intelligent city according to the present invention.

Fig. 2 is a schematic front view of a smart city remote power distribution manager with a cover plate removed.

Fig. 3 is a schematic structural diagram of an upper connection terminal of the intelligent city remote power distribution manager according to the present invention.

Fig. 4 is a schematic structural diagram of a lower connection terminal of the intelligent city remote power distribution manager according to the present invention.

Fig. 5 is a schematic diagram of an electrical connection structure of the remote power distribution manager of the smart city according to the present invention.

In the figure: 1 is the manager main part, and 2 are the display screen, and 3 are the pilot lamp, and 4 are control button, and 5 are the apron, and 6 are last binding post, and 7 are the antenna interface, and 8 are fixed screw hole, and 9 are fixed screw.

Detailed Description

The invention is further described below with reference to fig. 1-5, without limiting the scope of the invention.

In which like parts are designated by like reference numerals. It is noted that the terms "front", "back", "left", "right", "upper" and "lower" used in the following description refer to directions in the drawings, the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component, and the drawings are in greatly simplified form and employ non-precise ratios, merely for the purpose of facilitating and distinctly aiding in the description of the embodiments of the present invention.

In the following description, for purposes of clarity, not all features of an actual implementation are described, well-known functions or constructions are not described in detail since they would obscure the invention with unnecessary detail, it being understood that in the development of any actual embodiment, numerous implementation details must be set forth in order to achieve the developer's specific goals, such as compliance with system-related and business-related constraints, changing from one implementation to another, and it being recognized that such development effort might be complex and time consuming, but would nevertheless be a routine undertaking for those of ordinary skill in the art.

The utility model provides a long-range distribution manager in intelligent city, its includes manager main part 1, and the front view top part of manager main part 1 is equipped with display screen 2, pilot lamp 3 and control button 4, and the front view bottom part of manager main part 1 is equipped with apron 5, and the rear side of apron 5 is equipped with binding post 6, and the below of going up binding post 6 is equipped with antenna interface 7, and the lower extreme of manager main part 1 is equipped with down the binding post (do not mark in fig. 1, 2).

Go up binding post 6 and contain eight return circuit binding post, an AC zero line binding post, an AC live wire binding post, reserve binding post.

The lower wiring terminal comprises eight interactive sensor wiring terminals, and one reserved wiring terminal.

The antenna interface 7 is connected to a GSM antenna.

The manager main body 1 is wirelessly connected to the management platform.

The management platform is provided with a local loop module and a remote loop module.

An overcurrent and overvoltage remote alarm module, a remote firmware upgrading module and a network automatic timing module are arranged in the manager main body 1.

All opened two fixed screw holes 8 on manager main part 1 and the apron 5, manager main part 1 and apron 5 pass through fixed screw 9 and connect.

An operation mode of an intelligent city remote power distribution manager comprises the following processes:

the first process is as follows: the loop switch is controlled in real time through 8 loop buttons on the management platform, and then the light on/off of the film area is controlled;

secondly, clicking an intelligent strategy on the management platform to enter a timing strategy page, wherein 8 groups of independent timing settings are supported together, different time strategies can be set for each loop, and the same time strategy can also be set;

and thirdly, setting a loop adding scene strategy through the loop adding strategy of the intelligent strategy navigation bar on the management platform, so that a user can edit a plurality of timing scenes in advance and send different scene lighting modes aiming at different festivals and holidays.

An installation method of an intelligent city remote power distribution manager comprises the following steps:

step one, opening a distribution box, disconnecting a main power supply from an air switch, installing a manager main body 1 in the distribution box, and opening a cover plate 5 on the manager main body 1;

step two, power connection: connecting any one live wire power supply and zero wire power supply in the distribution box to an AC zero wire connecting terminal and an AC live wire connecting terminal of the upper connecting terminal 6 respectively, and pressing the connecting terminals by using a screwdriver;

step three, controlling output: connecting eight loop connecting terminals of the upper connecting terminal 6 with loops respectively, and measuring currents of eight interactive sensor connecting terminals of the lower connecting terminal connected with the loops;

step four, surface inspection wiring: after wiring, comprehensively checking the circuit, using a universal meter to measure whether a short circuit condition exists, if the short circuit condition occurs, please explain the line, using a screwdriver to fix all wiring terminals again, and paying attention to the fact that all the wirings must be completely and correctly accessed to ensure the safety of equipment and installation personnel;

step five, inserting the equipment SIM card by using the standby mobile phone, testing communication, if the mobile phone can browse the webpage normally, determining that the mobile phone card has no problem, and inserting the mobile phone card into the GPRS module of the manager main body 1.

Recording the serial number of the single lamp concentrator, the position of the street lamp section to which the single lamp concentrator belongs, and needing to be verified by special personnel, so as to avoid reworking in the debugging process;

step six, equipment power transmission: the equipment is powered on, and the normal operation of a working indicator lamp of the equipment is waited;

seventhly, fixing the GMS antenna and installing a cover plate 5;

step eight, after the equipment is installed, waiting for debugging.

Although the invention has been described and illustrated in some detail, it should be understood that various modifications may be made to the described embodiments or equivalents may be substituted, as will be apparent to those skilled in the art, without departing from the spirit of the invention.

Claims (10)

1. The utility model provides a long-range distribution manager in intelligent city which characterized in that: it includes manager main part (1), the partial display screen (2), pilot lamp (3) and control button (4) are equipped with on the face of looking forward of manager main part (1), the face of looking forward under of manager main part (1) is equipped with apron (5), the rear side of apron (5) is equipped with binding post (6), the below of going up binding post (6) is equipped with antenna interface (7), the lower extreme of manager main part (1) is equipped with down binding post.

2. The intelligent city remote power distribution manager according to claim 1, wherein: go up binding post (6) and contain eight return circuit binding post, an AC zero line binding post, an AC live wire binding post, reserve binding post.

3. The intelligent city remote power distribution manager according to claim 1, wherein: the lower wiring terminal comprises eight interactive sensor wiring terminals, and one reserved wiring terminal.

4. The intelligent city remote power distribution manager according to claim 1, wherein: the antenna interface (7) is connected with a GSM antenna.

5. The intelligent city remote power distribution manager according to claim 1, wherein: the manager body (1) is wirelessly connected to a management platform.

6. The intelligent city remote power distribution manager according to claim 5, wherein: and the management platform is provided with a local loop module and a remote loop module.

7. The intelligent city remote power distribution manager according to claim 1, wherein: an overcurrent and overvoltage remote alarm module, a remote firmware upgrading module and a network automatic timing module are arranged in the manager main body (1).

8. The intelligent city remote power distribution manager according to claim 1, wherein: manager main part (1) with all open two fixed screw holes (8) on apron (5), manager main part (1) with apron (5) are connected through fixed screw (9).

9. The utility model provides an operation mode of long-range distribution manager in intelligent city which characterized in that: the method comprises the following steps:

the first process is as follows: the loop switch is controlled in real time through 8 loop buttons on the management platform, and then the light on/off of the film area is controlled;

secondly, clicking an intelligent strategy on the management platform to enter a timing strategy page, wherein 8 groups of independent timing settings are supported together, different time strategies can be set for each loop, and the same time strategy can also be set;

and thirdly, setting a loop adding scene strategy through the loop adding strategy of the intelligent strategy navigation bar on the management platform, so that a user can edit a plurality of timing scenes in advance and send different scene lighting modes aiming at different festivals and holidays.

10. An installation method of an intelligent city remote power distribution manager is characterized in that: which comprises the following steps:

step one, opening a distribution box, disconnecting a main power supply from an air switch, installing a manager main body (1) in the distribution box, and opening a cover plate (5) on the manager main body (1);

step two, power connection: connecting any one live wire power supply and zero wire power supply in the distribution box to an AC zero wire connecting terminal and an AC live wire connecting terminal of an upper connecting terminal (6) respectively, and pressing the connecting terminals by using a screwdriver;

step three, controlling output: eight loop wiring terminals of the upper wiring terminal (6) are connected in a loop respectively, and eight interactive sensor wiring terminals of the lower wiring terminal are connected with the current of the loop for measuring;

step four, surface inspection wiring: after wiring is finished, comprehensively checking the circuit, and measuring whether a short circuit exists or not by using a universal meter;

and step five, inserting the equipment SIM card by using the standby mobile phone, testing communication, determining that the mobile phone card has no problem if the mobile phone can browse the webpage normally, and inserting the mobile phone card into the GPRS module of the manager main body (1).

Recording the serial numbers of the single-lamp concentrators and the positions of the street lamp sections;

step six, equipment power transmission: the equipment is powered on, and the normal operation of a working indicator lamp of the equipment is waited;

seventhly, fixing the GMS antenna and installing a cover plate (5);

step eight, after the equipment is installed, waiting for debugging.

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