Industrial intensive infrared busbar monitoring device

NegotiableUpdate on 03/13

Model

Nature of the Manufacturer: Producers

Product Category

Place of Origin

Online Consult

Overview

The industrial intensive infrared bus monitoring device is a non-contact infrared temperature measurement device. This product can solve the problem of safe and accurate temperature measurement of bus ducts, upload real-time temperature data of each phase in the connector to the background, implement monitoring and warning information, and prompt management personnel to pay attention to alarm points or take necessary preventive measures. The device is mainly used in online temperature monitoring systems for densely insulated busbar connectors in various fields.

Product Details

1 Industrial intensive infrared busbar monitoring deviceOverview

AMB300-Z-THBus infrared temperature and humidity measurement deviceIt is a non-contact infrared temperature measurement device. This product can solve the problem of safe and accurate temperature measurement of bus ducts, upload real-time temperature data of each phase in the connector to the background, implement monitoring and warning information, and prompt management personnel to pay attention to alarm points or take necessary preventive measures. The device is mainly used in online temperature monitoring systems for densely insulated busbar connectors in various fields.

2 Product Models

工业密集型红外母线监控装置

3 AMB300-Z-THBus infrared temperature and humidity measurement deviceTechnical Specifications

工业密集型红外母线监控装置

Technical principle of industrial intensive infrared busbar monitoring device

Working based on infrared thermal imaging technology. All objects in nature with temperatures above zero continuously emit infrared radiation energy into the surrounding space. The magnitude and wavelength distribution of infrared radiation energy of an object are closely related to its surface temperature. Therefore, by measuring the infrared energy radiated by an object itself, its surface temperature can be accurately determined.

The infrared thermal imaging device focuses the infrared radiation emitted by an object onto an infrared detector through an optical system. The detector converts the infrared radiation into an electrical signal, which is then processed through signal and image processing, and finally presents the thermal imaging image of the object on the display screen. The monitoring device determines whether there is an overheating fault in the busbar based on the temperature values of each point in the thermal imaging image

function

Non contact infrared temperature measurement：

Using infrared thermal imaging technology, the infrared radiation emitted by an object is focused onto an infrared detector through an optical system. The detector converts the infrared radiation into an electrical signal, which is then processed through signal and image processing, ultimately presenting the thermal imaging image of the object on a display screen.
Based on the temperature values of each point in the thermal imaging image, determine whether there is an overheating fault in the busbar and achieve accurate temperature measurement.

Real time data upload and monitoring：

Real time uploading of temperature data for each phase in the connector to the backend monitoring system for remote monitoring.
Provide real-time display of temperature data, historical record query, trend analysis and other functions to facilitate management personnel to grasp the temperature status of the busbar at any time.

Warning and alarm function：

When the temperature of the busbar exceeds the preset warning value or alarm value, the device will immediately issue an alarm signal, prompting management personnel to pay attention to the alarm point or take necessary preventive measures.
There are various alarm methods, including sound and light alarms, SMS alarms, email alarms, etc., to ensure that alarm information can be promptly conveyed to relevant personnel.