We study the LHC constraints on an R-symmetric SUSY model, where theneutrino masses are generated through higher dimensional operators involving the pseudo-Dirac bino, named biνo. We consider a particle spectrum where the squarks are heavier than the lightest neutralino, which is a pure biνo. The biνo is produced through squarkdecays and it subsequently decays to a combination of jets and leptons, with or withoutmissing energy, via its mixing with the Standard Model neutrinos. We recast the most recent LHC searches for jets+METwith $\sqrt{s}=$ 13 TeV and L= 36 $\text{fb}^{−1}$ of data to determinethe constraints on the squark and biνo masses in this model. We find that squarks aslight as 350 GeV are allowed if the biνo is lighter than 150 GeV and squarks heavierthan 950 GeV are allowed for any biνo mass. We also present forecasts for the LHC with $\sqrt{s}=$ 13 TeV and L= 300 $\text{fb}^{−1}$ and show that squarks up to 1150 GeV can be probed.