CN206498491U - A kind of thermal imaging monitoring and alarming system based on non-refrigerating infrared sensor - Google Patents

Abstract

The utility model discloses a kind of thermal imaging monitoring and alarming system based on non-refrigerating infrared sensor, including visible light camera, non-refrigerating infrared sensor cartridge assemblies and system compatible module, head, cradle head control module and background monitoring system.System compatible module is used for video signal transmission to background monitoring system, and according to the mobile object infrared signal of collection, and to background monitoring system output alarm signal；Background monitoring system is used to showing and storing vision signal, and is opened according to the alarm signal of reception to system compatible module transmission control signal control lighting module, to cradle head control module output control signal, cloud platform rotation.The thermal imaging of the utility model combination visible light camera and non-refrigerating infrared sensor, no matter day and night can be with normal work, especially under the conditions of harsh climate, penetrate rain, mist ability it is higher, preferably realize comprehensive to each target monitoring alarm effect under specific condition.

Description

A kind of thermal imaging monitoring and alarming system based on non-refrigerating infrared sensor

Technical field

The utility model belongs to thermal imaging monitoring alarm technical field, more particularly to a kind of based on uncooled ir sensing The thermal imaging monitoring and alarming system of device.

Background technology

With the fast development of economic society, people have higher requirement for the monitoring system under particular surroundings, and Traditional visible ray monitoring device can not meet the demand in market, especially in the harsh climate condition such as night and rain, mist Under, certain use limitation is there is, in addition, with the development of computer technology, people, which do not turn off, sends progress thermal imaging system The software systems of system Performance Evaluation, realize image-processing operations function, with the quality for the image for improving generation, monitor thermal imaging Warning system can clear accurate monitoring objective, and send alarm in real time, have significantly to society and expanding economy Benefit.

The content of the invention

The utility model purpose is that one kind can adapt to daytime, night, there is provided comprehensive for harsh climate condition for offer The thermal imaging monitoring and alarming system based on non-refrigerating infrared sensor of monitoring alarm.

The utility model to achieve the above object, is adopted the following technical scheme that：

A kind of thermal imaging monitoring and alarming system based on non-refrigerating infrared sensor, including video acquisition device, head, cloud Platform control module and background monitoring system, it is characterised in that：It is red that the video acquisition device includes visible light camera, non-brake method Outer sensor cartridge assemblies and system compatible module；

The visible light camera has lighting module, is commonly mounted on non-refrigerating infrared sensor cartridge assemblies described On head, synchronous axial system is controlled by cradle head control module；

The non-refrigerating infrared sensor cartridge assemblies are used to gather infrared signal；

The system compatible module is used to gather the visible light camera and non-refrigerating infrared sensor cartridge assemblies Video signal transmission give the background monitoring system, and according to non-refrigerating infrared sensor cartridge assemblies gather mobile object Infrared signal, and to the background monitoring system output alarm signal；

The background monitoring system is used for the vision signal for showing and storing video acquisition device collection, and according to connecing The alarm signal of receipts sends control signal control lighting module to the system compatible module and opened, to the cradle head control module Output control signal, cloud platform rotation.

It is further characterized by：The non-refrigerating infrared sensor cartridge assemblies include red without thermalization camera lens, non-brake method Outer sensor and cartridge assemblies；The non-refrigerating infrared sensor without thermalization camera lens by realizing to the ultrared of surrounding environment Collection, and electric signal is converted optical signal into by cartridge assemblies, send system compatible module to.

Further：The system compatible module includes FPGA main control modules, TCP/IP communication modules and RS485 communication moulds Block；The FPGA main control modules are used for the non-refrigerating infrared sensor cartridge assemblies, visible light camera, cradle head control module And feedback of the information and mutual data exchange between background monitoring system；The TCP/IP communication modules are used for described Communicated between FPGA main control modules and background monitoring system；The RS485 communication modules are used for the FPGA main control modules and cloud Communicated between platform control module.

Alarm signal is passed through the TCP/IP communication modules by the FPGA main control modules according to mobile object infrared signal It is sent to the background monitoring system；

The background monitoring system is sent by FPGA main control modules through TCP/IP communication modules and controlled according to alarm signal Signal opens lighting module to visible light camera；

The background monitoring system is sent by FPGA main control modules through TCP/IP communication modules and controlled according to alarm signal Signal, the FPGA main control modules communicate mould transmission control signal by the RS485 and carried out accordingly to cradle head control module Cradle head control.

It is preferred that：The head is 360 ° of all-direction rotation heads.

The thermal imaging of the utility model combination visible light camera and non-refrigerating infrared sensor, no matter day and night With normal work, especially under the conditions of harsh climate, penetrate rain, mist ability it is higher, therefore still can normally observe Target, preferably realizes monitoring alarm effect comprehensive to each target under specific condition.

Brief description of the drawings

Fig. 1 is the utility model principle framework schematic diagram.

Embodiment

A kind of thermal imaging monitoring and alarming system based on non-refrigerating infrared sensor as shown in Figure 1, including video acquisition dress Put, head, cradle head control module, system compatible module and background monitoring system.

Video acquisition device includes visible light camera, non-refrigerating infrared sensor cartridge assemblies and system compatible module. Visible light camera has lighting module, is commonly mounted on non-refrigerating infrared sensor cartridge assemblies on head, by head control Molding block controls synchronous axial system.

Non-refrigerating infrared sensor cartridge assemblies are used to gather infrared signal, including without thermalization camera lens, uncooled ir Sensor and cartridge assemblies；Non-refrigerating infrared sensor by realizing ultrared collection to surrounding environment without thermalization camera lens, And electric signal is converted optical signal into by cartridge assemblies, send system compatible module to.

System compatible module includes FPGA main control modules, TCP/IP communication modules and RS485 communication modules；FPGA master control moulds Block be used for non-refrigerating infrared sensor cartridge assemblies, visible light camera, cradle head control module and background monitoring system it Between feedback of the information and mutual data exchange；TCP/IP communication modules be used for FPGA main control modules and background monitoring system it Between communicate；RS485 communication modules are used to communicate between FPGA main control modules and cradle head control module.

Background monitoring system is used for the vision signal for showing and storing video acquisition device collection, and according to the alarm of reception Signal sends control signal control lighting module to system compatible module and opened, to cradle head control module output control signal, cloud Platform is rotated.

When the system works, non-refrigerating infrared sensor is adopted by being realized without thermalization camera lens to the ultrared of surrounding environment Collection, and electric signal is converted optical signal into by cartridge assemblies, electric signal sends the FPGA main control modules of system compatible module to Respective handling is carried out, the TCP/IP communication modules after the completion of processing again by system compatible module send data to background monitoring System carries out infrared thermal imaging and shown, once there is unknown thermal source to enter the scanning models of non-refrigerating infrared sensor cartridge assemblies In enclosing, handed over after the FPGA main control modules processing that data will be passed through system compatible module by non-refrigerating infrared sensor cartridge assemblies Background monitoring system is sent to by TCP/IP communication modules, and makes corresponding alarm.

Captured once non-refrigerating infrared sensor cartridge assemblies after unknown thermal source, user needs further to carry out identity Confirm, then the TCP/IP communication modules of system compatible module can be just sent commands to by background monitoring system, then are transmitted Respective handling is carried out to FPGA main control modules, visible light camera module is sent a command to after the completion of processing again, opened visible The lighting device of light video camera, now, user just can be clearly seen unknown thermal source by the visible light camera of high definition.

Cradle head control module 6 preferably can carry out 360 ° of comprehensive monitoring to head and control, it is ensured that visible image capturing Machine and non-refrigerating infrared sensor cartridge assemblies can monitor the ambient conditions in any orientation, accomplish no dead angle.The fortune of the module Make the main FPGA main control modules for instruction being sent to by TCP/IP communication modules by background monitoring system system compatible module After being handled, then the cradle head control module is sent to by RS485 communication modules controlled accordingly.

Background monitoring system intuitively can in real time supervise visible light camera and non-refrigerating infrared sensor cartridge assemblies The image of control is presented to user and checked, and makes corresponding command operating.

Claims (5)

1. a kind of thermal imaging monitoring and alarming system based on non-refrigerating infrared sensor, including video acquisition device, head, head Control module and background monitoring system, it is characterised in that：The video acquisition device includes visible light camera, uncooled ir Sensor movement component and system compatible module；

The visible light camera has lighting module, and the head is commonly mounted on non-refrigerating infrared sensor cartridge assemblies On, synchronous axial system is controlled by cradle head control module；

The non-refrigerating infrared sensor cartridge assemblies are used to gather infrared signal；

The system compatible module is used for regarding that the visible light camera and non-refrigerating infrared sensor cartridge assemblies are gathered Frequency signal is transferred to the background monitoring system, and the mobile object gathered according to non-refrigerating infrared sensor cartridge assemblies is infrared Signal, and to the background monitoring system output alarm signal；

The background monitoring system is used for the vision signal for showing and storing the video acquisition device collection, and according to reception Alarm signal sends control signal control lighting module to the system compatible module and opened, and is exported to the cradle head control module Control signal, cloud platform rotation.

2. the thermal imaging monitoring and alarming system according to claim 1 based on non-refrigerating infrared sensor, it is characterised in that： The non-refrigerating infrared sensor cartridge assemblies are included without thermalization camera lens, non-refrigerating infrared sensor and cartridge assemblies；It is described non- Refrigerating infrared sensor is believed light by cartridge assemblies by realizing the ultrared collection to surrounding environment without thermalization camera lens Number electric signal is converted into, sends system compatible module to.

3. the thermal imaging monitoring and alarming system according to claim 1 or 2 based on non-refrigerating infrared sensor, its feature exists In：The system compatible module includes FPGA main control modules, TCP/IP communication modules and RS485 communication modules；The FPGA master Controlling module is used for the non-refrigerating infrared sensor cartridge assemblies, visible light camera, cradle head control module and background monitoring system Feedback of the information and mutual data exchange between system；The TCP/IP communication modules are used for the FPGA main control modules Communicated between background monitoring system；The RS485 communication modules be used for the FPGA main control modules and cradle head control module it Between communicate.

4. the thermal imaging monitoring and alarming system according to claim 3 based on non-refrigerating infrared sensor, it is characterised in that：

The FPGA main control modules are sent alarm signal by the TCP/IP communication modules according to mobile object infrared signal To the background monitoring system；

The background monitoring system sends control signal through TCP/IP communication modules according to alarm signal by FPGA main control modules Lighting module is opened to visible light camera；

The background monitoring system sends control letter through TCP/IP communication modules according to alarm signal by FPGA main control modules Number, the FPGA main control modules communicate mould transmission control signal by the RS485 and carry out corresponding cloud to cradle head control module Platform is controlled.

5. the thermal imaging monitoring and alarming system according to claim 1 based on non-refrigerating infrared sensor, it is characterised in that： The head is 360 ° of all-direction rotation heads.