Download Design of Integrated Mine Safety Monitoring System

Design of Integrated Mine Safety
Monitoring System Using MSP430
Student Name
USN NO
Guide Name
Name Of The College & Dept
H.O.D Name
CONTENTS
1.
Abstract
2.
Objectives
3.
Block diagram
4.
Methodology
5.
Advantages & disadvantages
6.
Applications
7.
Conclusion
1.ABSTRACT:
In this work, a safe Coal Mine Monitoring system which replaces
the traditional coal mine monitoring systems which tend to be wired
network systems. This play an important role in coal mine safe production.
With continuous enlarging of exploiting areas and extension of depth in
coal mine, many laneways become monitoring blind areas, where are lots of
hidden dangers. Moreover, it is inconvenient to lay cables which are
expensive and consume time. In order to solve the problems, we designed a
coal mine safety monitoring system based on wireless sensor network,
which can improve the level of monitoring production safety and reduce
accident in the coal mine.
2.OBJECTIVES:
Since the main intension of this projects is to design “Vibration &
poisonous
gas
Detecting
and
Alerting
System”.
In under ground mining to fulfill this application there are few steps that has
been performed .
.
3.BLOCK DIAGRAM :
4. METHODOLOGY:
A general block diagram of the proposed scheme is given in Figure . In
the Module there is Vibration & poisonous gas Detector, when the vibration
or & poisonous gas is detected the it gives the signal to the MSP 430 controller,
then the controller will generate the output that is fed to buffer IC 4050 ,buffer
stores and given to the driver IC 2003 in driver current will amplifies and
voltage will inverts with the help of Darlington pair circuit of driver IC to drive
the relay . Then signal is given to the output load buzzer for indication purpose.
5. ADVANTAGES & DISADVANTAGES:
ADVANTAGES:
1.
More useful in remote areas.
2.
Firing events more help full to save.
3.
This project we can operate Easily
4.
Can be used globally.
DISADVANTAGES:
1.
Under the mine the personal safety of staff problem.
2.
Personnel positioning problem
6.APPLICATIONS:
1.
This project can be implement in gas Industries.
2.
It is used in mining of coal & other materials.
3.
It is used in municipal gas distribution .
4.
This project can be use in Military applications.
5.
It is used in nuclear power station.
7.CONCLUSION:
In this work we have proposed an efficient autonomous system for
standoff explosive detection like vibration & poisonous gas. While
comparing with traditional systems have lot of advantages. The main
advantages are its miniature size, low power consumption, distributed
operation, and easy implementation.
THANK YOU
Thank You