Monday, 14 April 2014

DOZER


Dozer 

DOZER 
A dozer is a machine equipped with a substantial metal plate used to push large quantities of soil , sand , rubble etc.
 COMPONENTS
THE TRACTOR
 THE  ENGINE
 THE TRACKS
 THE  BLADE

 
THE TRACTOR 
It encompasses the cab where  
the controls are located.  


THE ENGINE 
They are high powered diesel engines, mainly because of the torque necessary to move through very rough terrain.

THE TRACKS 
located on either side of the body, are made up of heavy metal links that create powerful traction.

THE BLADE
  Located at the front of the tractor , and is able to lift 
    the blade up and down.


Types 
 Wheel Dozer
 Crawler Dozer


Tasks 
 Stripping/spreading topsoil and materials
  cut and fill
  stock pilling
  bulk excavation


Capacities
They are available in various hp capacities

Saturday, 12 April 2014

Graders


Graders  are  multipurpose
machines  used  primarily for general construction and maintenance of roads and runways,
 moving large amounts of materials like soil ,snow  laterally by side casting.




Moldboard: it is also referred as blade. Used for side cast the material it encounters .its ends can be raised or lowered. it can be placed in may position.
Frame : the frame connected to the front axle extends the full length of grader and enhances the mechanism.
Scarifier : material too hard to cut with the moldboard are broken with the scarifier.
Circle : the circular shape beneath the frame allows the moldboard to position at any angle. 
main component


Different Tasks of a grader:
1) Planning surface: Mold board can be set at any angle to plane off irregular surfaces and using the resultant material to fill low spots.
2) Ditch cuts: Ditches can be cut by moldboard and scarifier combined normally at 2nd gear at full throttle.
3) Creating a bank slope: Grader  can be used for Sloping the bank of road prevents slope failure.

4)Cleaning Ditches: Grader can be used to remove unwanted material from ditch during the bank slope operation.
5)Spreading material: Graders are often used to spread and mix loads.

Capacities
Different capacities of grader ranges from 
about 60 to 600hp.

Blade size ranges from 2.5 to 7.3 meter.

Fork lift


Introduction
Also known as lift truck, a stacker-truck, trailer loader, side loader, fork truck.
The Pennsylvania Railroad in 1906 introduced battery powered platform trucks.
A tool capable of lifting thousands of pounds
It has two metal forks on the front used to lift cargo.
Toyota Forklift 



Main components
Truck Frame - Is the base of the machine to which the mast, axles, wheels, counterweight, overhead guard and power source are attached. 
 Counterweight - is a mass attached to the rear of the forklift truck frame. The purpose of the counterweight is to counterbalance the load being lifted.

Cab - is the area that contains a seat for the operator along with the control pedals, steering wheel, levers, switches and a dashboard containing operator readouts.
Overhead Guard - is a metal roof supported by posts at each corner of the cab that helps protect the operator from any falling objects.

Power Source - may consist of an internal combustion engine that can be powered by LPG, CNG gas, gasoline or diesel fuel.
Tilt Cylinders - are hydraulic cylinders that are mounted to the truck frame and the mast. The tilt cylinders pivot the mast to assist in engaging a load.

Mast - is the vertical assembly that does the work of raising and lowering the load.
Carriage - is the component to which the forks or other attachments mount. 

Load Back Rest - is a rack-like extension that is either bolted or welded to the carriage in order to prevent the load from shifting backward when the carriage is lifted to full height.
Attachments - may consist of forks or tines that are the L-shaped members that engage the load. Some attachments include sides hifters, slip sheet attachments.

Types
Standard Trucks
Reach Trucks
Order Selecto
Motorized Pallet Trucks
Swing Mast Trucks
Turret Trucks
Internal Combustion Forklifts
Electric Forklifts

Tasks
To carry heavy materials on to the elevated platform.
The load rest on forks maneuvered securely under the ground.
Carry heavy materials from one place to the other.
Does not occupy more space unlike the trucks and lorries.

Capacities
Forklift trucks are available in many variations and load capacities.
Up to 50 tons lift capacity are used for lifting heavier loads.
The engine horsepower and bucket capacity depends from company to company.

Faults
Gearbox faults
Sensor power supply voltage has a malfunction.
Connectors coming loose ,wires breaking inside the sheathing.
Problems due to heat exposure or long run.

Fork lifter Safety
Pinch Points
Watch where you place your hands and feet. Be aware of and stay clear of pinch points. 



Stay in Your Truck  
 Stay under the overhead guard. It is designed to protect you while you operate the truck.

You are Responsible for Others
  

Operating your lift truck safely means you are not only responsible for your safety, but also for the safety of the people around you. Always look out for others before moving your lift truck.

precaution




introduction to site( civil engineering mini student project)

Introduction To Site
                 Casualty Block KTH
Client: C&W KPK
Consultant: M/S Shaz Consultants
Completion Time: 36 Months (3 years)
It is constructed by Frame Structure Method
It has 9 stories
Total Covered Area : 229,282 sqft
Building consists of surgical wards, medical wards, cardiology wards and ICU
Cost estimate : Rs 332 million
Ground Floor Plan Details
The NSL of Floor level is 14ft
Bricks masonry is used in walls with different types of bonds
The width of external boundary walls is 13-1/2in  having Single Flemish Bond
Width of walls of rooms are 9in having English Bond

9″ Wall
Width of washroom & partition walls is 4-1/2in having Stretcher Bond
Wards : 43′-2″*17′-3″
Waiting Room : 16′*12′
X-Ray Room : 29′*20′
Mortar used in walls is of ratio = 1:2:4
The Mortar used has strength of 3000psi
60-grade steel is used in beams and columns having 60000psi strength
#08 Bars are used in columns



English Bond
9″ Wall

Friday, 11 April 2014

Stair Reinforcement( civil engineering mini student project)

Detail


A  staircase or  simply stairs is a construction designed to bridge a large vertical distance by dividing it into smaller vertical distances, called steps.

It make easier for the inhabitants of the building to move with ease through different stories of the building.

 A staircase isn't just a link between two floors  it's a major architectural feature that turns an ordinary entryway into an elegant grand entrance.
We Generally Use two Terms While Talking about the Dimensions of Stairs
Riser
Tread

Tread 
        The part of the stairway that is stepped on.
Riser 
      The vertical portion between each tread on the stair.
site detail are 
Casuality Block
Work is Under C&W KPK
Consultant : M/S Shaz Consultant
Completion Time = 36 months
Sponser Agency : Health          Department KPK
Here are Some Snaps Which I took during my Visit to the construction sight











Specifications of these stairs
Riser = 6.75”
Tread = 12”
Width = 5’
Steel Used
Grade 60 Steel was Used
 #4 steel  was used  in                                                             Distribution bars
#5 steel was used in main Bars

Thursday, 27 March 2014

Effect of Channel impairments on a signal

hi friend my this article is all about Matlab ,which was originally a task given by our teacher in data communication lab and we perform as a team member in class room , at university of engineering a technology, i am sharing with you this task , and will share all other task as soon as we perform it.

Objectives:

How to generate a simple signal in Matlab
Effect of thermal noise on the generate signal
Effect of delay distortion on a signal
Effect of attenuation on a signal

Apparatus:

        Matlab (preferably any version)

Procedure:

       To implement the given objectives on Matlab, by simply type the specific codes in the command window of the Matlab as directed and plot them. Following are the codes and Simulation obtained via Matlab.

To generate a simple signal in a Matlab

Code:

For Cos
clc
clear
t=0:pi/12:6*pi;
x=cos(t);

Simulation:









For Sine
Code:

t=0:pi/12:6*pi;
x=sin(t);
plot(t,x)

Simulation:


For Square
Code:
t=0:.0001:.0625;
x=square(2*pi*30*t);
plot(t,x)

Simulation:

Effect of thermal noise on the generated signal
Code:

              t = 0:.1:10;
              x = sawtooth(t);
              y = awgn(x,10,'measured');
              plot(t,x,t,y);
              legend('Original signal','Signal with AWGN');

              Simulation:

      For square

      Code:

        t=0:.0001:.0625;
        x=square(2*pi*30*t);
        y=awgn(x,10);
        xlabel('time(sec)');
        ylabel('amplitude(a)');
        Legend ('original signal');
        Plot(t,y)
       Simulation:
   

Effect of delay distortion on a signal


Code:
For sine

t=0:0.01:1;
f1=1;
f2=2;
x1=sin(2*pi*f*t);
x2=sin((2*pi*f*t)+40);
x3=x1+x2;
plot(t,x3,t,x1,t,x2);

Simulation:


     

For Cos
Code:

t=0:0.01:1;
f1=1;
f2=2;
x1=cos(2*pi*f*t);
x2=cos((2*pi*f*t)+40);
x3=x1+x2;
plot(t,x3,t,x1,t,x2)

Simulation:
 


Effect of attenuation on a signal

Code:
t=0:pi/12:6*pi;
x1=sin(t);
E1=cos(x1.*conj(x1));
pin=E1/length(t);
x2=0.3*cos(t);
E2=cos(x2.*conj(x2));
plot=E2/length(t);
L=plot/pin;

             For square:
               Code:

              t=0:pi/12:6*pi;
              x1=square(t);
              E1=square(x1.*conj(x1));
              pin=E1/length(t);
              x2=0.3*square(t); 
              E2=square(x2.*conj(x2));
              plot=E2/length(t);
              L=plot/pin;
               

Wednesday, 26 March 2014

Simulation of Line coding schemes in Matlab


hi friend my this article is all about Matlab ,which was originally a task given by our teacher in data communication lab and we perform as a team member in class room , at university of engineering a technology, i am sharing with you this task , and will share all other task as soon as we perform it.

Objectives 

To generate unipolar Non-return-to-zero (NRZ) signal.
To generate unipolar signal with two different polarities 0v and 1v.
To generate Bipolar Alternate Mark Inversion (AMI) signal.
To plot pseudoternary signal.

Software:

Matlab (any suitable version)

Introduction:

Line Coding:

Binary data can be transmitted using a number of different types of pulses. The choice of a particular pair of pulses to represent the symbols 1 and 0 is called Line Coding.
Types of Line Coding:

Unipolar Signal:

            Unipolar signal (also called on-off keying, OOK) is the type of line coding in which one binary symbol (representing a 0 for example) is represented by the absence of a pulse (i.e. a SPACE) and the other binary symbol (denoting a 1) is represented by the presence of a pulse (i.e. a MARK).
            There are two common variations of unipolar signal: Non-Return to Zero (NRZ) and Return to Zero (RZ).

Non-return to zero (NRZ):

             In unipolar NRZ the duration of the MARK pulse (Ƭ) is equal to the duration (To) of the symbol slot shown in the figure. It Provide simplicity in implementation, also it does not require a lot of bandwidth for transmission.

          1         0          1           0        1          1          1           1             1       0
      

Return to Zero (RZ):

            In unipolar RZ the duration of the MARK pulse (Ƭ) is less than the duration (To) of the symbol slot as shown in figure. Typically RZ pulses fill only the first half of the time slot, returning to zero for the second half. It provide Presence of a spectral line at symbol rate which can be used as symbol timing clock signal.
  (To)
                     1           0         1           0        1          1          1         0       0        0
   (T)                          1     0         1     0         1       1        0     0    0         0

Polar signal:

           In polar signal a binary 1 is represented by a pulse g1 (t) and a binary 0 by the opposite (or antipodal) pulse g0 (t) = -g1 (t). Polar signal also has NRZ and RZ forms. 


    1            0          1            0            1           1            1          1          1           0

                                    1       0         1        0     1            1             1              1    0

  
                   

                    Polar NRZ and RZ have almost identical spectra to the Unipolar NRZ and RZ.

Bipolar signal:

Bipolar Signalling is also called “alternate mark inversion” (AMI) uses three          voltage levels (+V, 0, -V) to represent two binary symbols. Zeros, as in unipolar, are
Represented by the absence of a pulse and ones (or marks) are represented by
Alternating voltage levels of +V and –V. Like the Unipolar and Polar cases, Bipolar also has NRZ and RZ variations.

  1           0           1         0             1            1           1           1           1       0
                                  1        0        1      0          1        1        1       1        1      0

Pseudoternary signal:

         A pseudoternary signal which is derived from the binary digit signal without change of the line digit rate
NOTE- An alternate mark inversion signal is an example of a pseudoternary signal.


Unipolar NRZ:

Clc
Clear all;
Data=[0 1 1 0 1 0 1];
I=1:7;
J=1.99:7.99;
Time=[ ];
For (k=1:7)
Time=[time i(k) j(k)];
End
a=1;
signal=[ ];
for (t=1:7)
if (data (t)==0)
signal (a:a+1)=0;
else
signal (a:aa+1)=1;

End
a=a+2;
end
figure (1);
plot(time, signal' line width' 2);
title ('digital signal ')
xlable (''time(t) ')
ylabe ('Amplitude (A)')
axis ( [1 8 -0.5 5])



Task 01:
Write Matlab code that generates unipolar signal with following polarities.
0V for binary – 0
-1V for binary -1


NRZ –L
Data=[1 0 0 0  1 1 0 1];
I= 1; length (data);
J=1.99: length (data) + 0.99;
Time= 
% generating signal
Signal= [ ];
N= length (data);
a= 1;
for (t= 1:N);
if data (t)== 1);
signal (a:a+1)=1;
else
signal (a:a+1)=-1;
end
a= a+2;
end
plot;(time, signal 'linewidth'.2);
title('NRZ-L');
Xlable('time');
Ylable('Voltage level');

Task 02:

            Plot NRZ-I signal for the following message
            M= [0 1 0 1 1 1 0 1];
            Bipolar-AMI (Alternate Mark Inversion).
            % generating signal
            Signal= [ ];
            N= length (data);
            a= 1;
            pre-bit= 1;
           for (t= 1:N)
           if (data(t)==1 and pre-bit==1)
           signal (a; a+1) =1;
           pre-bit= -1;
           else
           signal (a:a+1)= -1;
           pre-bit= 1;
           end
           a= a+2;
           end.

          Task 03:

          Data= [0 1 1 1 0]; j = 1.99 : 11 + 0.
 time = [ ]
for (k = 1 : length(message
          Write Matlab Program to plot psuedoternary signal
  Psuedo Ternary Encoding
clcmessage = [0 1 1 0 1 1 1 0 0 0 1]   
data = zeros(1,2*length(message)-1          
data (1 : 2 : end) = message
i = (1 : 11)

time =time i(k), j(k)])]   
end
% Generating Signal
signal = [ ]            
n = length(data)
prebit = 1
for t = 1 : 2 : n                  
if (data(t) == 0
signal(t : t+1) = 0
else
if (data(t) == 1 &prebit == 1
signal (t : t+1) = 1

prebit = -1