CN211669313U - Switch cabinet monitoring system - Google Patents

Abstract

The utility model discloses a switch cabinet monitoring system, including terminal host computer, dehumidifier, infrared cloud platform, the online monitoring device is put in office, the infrared cloud platform is installed in switch cabinet door back, the dehumidifier is installed in the inboard side of switch cabinet, the online monitoring device is put in office includes capacitive sensor, electrified display, online analyzer, electrified display is installed in the cubical switchboard inside wall, online analyzer is installed in the cubical switchboard lateral wall, terminal host computer is installed in the cubical switchboard outside, terminal host computer connects dehumidifier, the online monitoring device is put in office respectively, terminal host computer connects gradually online analyzer, electrified display, capacitive sensor, the utility model discloses utilize infrared cloud platform to monitor the cubical switchboard internal temperature for the first time, the cubical switchboard internal temperature has been reacted fast effectively, the risk factor has been effectively reduced; the dehumidifier is upgraded into a manual-automatic integrated mode, so that the demand can be met more conveniently. The equipment has high working efficiency, small volume and convenient operation.

Description

Switch cabinet monitoring system

Technical Field

The utility model relates to a monitoring technology field, in particular to cubical switchboard monitoring system.

Background

The existing switch cabinet has no effective monitoring and processing means for temperature, humidity in the cabinet and partial discharge under the operation condition, and the problem can not be found and taken at the first time when the switch cabinet generates high temperature, overhigh humidity in the cabinet or generates partial discharge, so that the switch cabinet is in failure, and production or safety accidents are influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cubical switchboard monitoring system.

The utility model adopts the technical proposal that:

cubical switchboard monitoring system, its characterized in that: including terminal host computer, dehumidifier, infrared cloud platform, partial discharge on-line monitoring device, infrared cloud platform is installed in cubical switchboard cabinet back of the door, the dehumidifier is installed in the inboard side of cubical switchboard, the partial discharge on-line monitoring device includes capacitive sensor, electrified display, online analysis appearance, and electrified display is installed in the cubical switchboard inside wall, and online analysis appearance is installed in the cubical switchboard lateral wall, the terminal host computer is installed in the cubical switchboard outside, the terminal host computer is connected dehumidifier respectively, partial discharge on-line monitoring device, the terminal host computer connects gradually online analysis appearance, electrified display, capacitive sensor.

The capacitive sensor collects and monitors the operating state parameters of the switch cabinet by connecting a group of electric coupling electrodes.

The utility model has the advantages that: the internal temperature of the switch cabinet is monitored by utilizing the infrared cloud platform for the first time, so that the internal temperature of the switch cabinet is quickly and effectively reflected, and the risk coefficient is effectively reduced; the dehumidifier is upgraded into a manual-automatic integrated mode, so that the demand can be met more conveniently. The equipment has high working efficiency, small volume and convenient operation.

Drawings

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

FIG. 1 is a schematic view of the apparatus of the present invention;

fig. 2 is a system diagram of the present invention.

Wherein: 1. an infrared pan-tilt; 2. a dehumidifier; 3. a terminal host; 4. a capacitive sensor; 5. a charged display; 6. an on-line analyzer.

Detailed Description

As shown in fig. 1-2, the switch cabinet monitoring system includes a terminal host 3, a dehumidifier 2, an infrared cradle head 1, and an on-line partial discharge monitoring device, wherein the infrared cradle head 1 is installed on the back of a door of the switch cabinet, the dehumidifier 2 is installed on the inner side of the switch cabinet, the on-line partial discharge monitoring device includes a capacitive sensor 4, a charged display 5, and an on-line analyzer 6, the charged display 5 is installed on the inner side wall of the switch cabinet, the on-line analyzer 6 is installed on the outer side wall of the switch cabinet, the terminal host 3 is installed outside the switch cabinet, the terminal host 3 is respectively connected with the dehumidifier 2 and the on-line partial discharge monitoring device, and the terminal host 3 is sequentially connected with the on-line.

The infrared holder 1 comprises an imported industrial grade thermopile array infrared temperature measuring sensor, an imported wireless communication chip, a precise micro stepping motor and a power supply.

The terminal host 3 is arranged on the wall outside the switch cabinet and used for receiving signals transmitted by the monitoring equipment, converting the signals into data through calculation and analysis by software and displaying the data on the terminal, a 7-inch color touch screen is adopted, a USB, an Ethernet port and a serial port are adopted for input and output, various signals are collected, powerful upper computer analysis software is adopted, and the operation is simple.

The dehumidifier 2 is arranged in the switch cabinet, and the humid air in the cabinet is condensed into water and directly discharged out of the cabinet through local condensation manufacturing conditions, so that the humidity of the air in the switch cabinet can be quickly and effectively reduced, and the condensation phenomenon can be inhibited. The multifunctional cabinet has a remarkable effect on preventing the problems of equipment aging, low insulation strength, secondary terminal breakdown, material mildew, corrosion of steel structural parts and the like in the cabinet caused by moisture and condensation.

The capacitive sensor 4 collects and monitors the operating state parameters of the switch cabinet by connecting a group of electric coupling electrodes, and the group of capacitive coupling electrodes can achieve a plurality of different purposes. Therefore, the cost can be saved, the wiring and installation cost can be reduced, and the probability of the fault of the whole system can be reduced to the maximum extent.

The live display 5 converts the measurements of the 3 capacitively coupled electrodes into a signal to the analyzer and in this case no information is lost. Along the lead connecting the two directions of the capacitive coupling electrode, the data analyzer is connected with the sensor through a coaxial cable. It can monitor up to 8 points and can cascade large sites. When the switch cabinet is partially discharged, the alarm can automatically give an alarm to a user.

The on-line analyzer 6 can be connected to 8 sensor channels at the maximum, and in the analyzer, a microcontroller monitors the alarm value of each measurement point, and if the alarm value is exceeded, the analyzer will report the measurement point, alarm and notify maintenance personnel that the analyzer is self-monitoring, and therefore will give an alarm even if the device is faulty.

As shown in fig. 2, the utility model discloses a cubical switchboard monitoring system, signal transmission including infrared cloud platform 1 will be monitored gives terminal host 3, dehumidifier 2 response environment humidity, judge whether work, send a terminal host 3 to the implementation of the data of environment and work simultaneously, electric capacity sensor 4 conveys electrified display 5 to the operation conditions and the parameter of the cubical switchboard of monitoring, electrified display 5 converts the measured value of three sensor 4 into a signal value and transmits online analyzer 6, online analyzer 6 is final to data transmission for terminal host 3, above-mentioned system is applicable to the cubical switchboard monitoring in fact.

The utility model discloses utilize infrared cloud platform to monitor cubical switchboard internal temperature for the first time, quick effectual cubical switchboard internal temperature that has reflected, the effectual risk coefficient that reduces; the dehumidifier is upgraded into a manual-automatic integrated mode, so that the demand can be met more conveniently. The equipment has high working efficiency, small volume and convenient operation.

Claims (2)

1. Cubical switchboard monitoring system, its characterized in that: including terminal host computer, dehumidifier, infrared cloud platform, partial discharge on-line monitoring device, infrared cloud platform is installed in cubical switchboard cabinet back of the door, the dehumidifier is installed in the inboard side of cubical switchboard, the partial discharge on-line monitoring device includes capacitive sensor, electrified display, online analysis appearance, and electrified display is installed in the cubical switchboard inside wall, and online analysis appearance is installed in the cubical switchboard lateral wall, the terminal host computer is installed in the cubical switchboard outside, the terminal host computer is connected dehumidifier respectively, partial discharge on-line monitoring device, the terminal host computer connects gradually online analysis appearance, electrified display, capacitive sensor.

2. The switchgear monitoring system of claim 1, wherein: the capacitive sensor collects and monitors the operating state parameters of the switch cabinet by connecting a group of electric coupling electrodes.

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