You can do this using standard R functions like this:
c <- 1
d <- 2
a <- -2
b <- 3.5
ll <- pnorm(a, c, d)
ul <- pnorm(b, c, d)
x <- qnorm( runif(3000, ll, ul), c, d )
The pnorm function is used to find the limits to use for the uniform distriution, data is then generated from a uniform and then transformed back to the normal.
This is even simpler using the distr package:
N <- Norm(c,d)
N2 <- Truncate(N, lower=a, upper=b)
x <- r(N2)(3000)
Note that in both cases the mean is not c and the sd is not d. If you want the mean and sd of the resulting truncated data to be c and d, then you need the parent distribution (before truncating) to have different values (higher sd, mean depends on the truncating values), finding those values would be a good homework problem for a math/stat theory course. If that is what you really need then add a comment or edit the question to say so specifically.
If you want to generate the data from the untruncated normal, but only plot the data within the range [a,b] then just use the ylim argument to plot:
plot( rnorm(3000, c, d), ylim=c(a,b) )