The expected trilepton signals from $p \bar p \to ��^\pm_1��^0_2 \to (��^0_1\ell^\pm��) (��^0_1\ell'^+\ell'^-) $ will be converted into hadronically quiet multilepton signals, if the two final $��^0_1$ have leptonic $R$-parity-violating (RPV) decays $��^0_1 \to \ell \ell' ��$. We make illustrative calculations of the acceptance for these spectacular RPV signals, and point out that distinctive multilepton signals are possible even when the $R$-conserving trilepton signals are blocked by the ``spoiler mode" $��^0_2 \to h^0 ��^0_1$. Other channels such as $p\bar p\to ��_1^\pm ��_2^0 \to (��_1^0\ell^\pm��) (��_1^0����)$, $p\bar p\to ��_1^\pm ��_1^0 \to (��_1^0\ell��)��_1^0$ and $p\bar p\to��_1^+��_1^-\to(��_1^0\ell^+��)(��_1^0\ell'^-��)$ can also give quiet multileptons from RPV. We investigate these signals in the context of supersymmetric models with radiative electroweak symmetry breaking, using examples in the low-$\tan��$ $��_t$ fixed-point region.

12 pages. Uses Revtex style files (available through hep-ph). 5 postscript figures included (uufiled). RAL-94-047, MAD/PH/831