In　this　letter,　a　reflective　metasurface　composed　of　double-layer　metallic　L-patterns　is　designed.　Both　the　simulated　and　measured　results　demonstrate　that　when　the　incident　angle　ranges　from　0　degrees　to　30　degrees,　the　metasurface　can　be　regarded　as　a　three-band　polarization　converter.　On　the　one　hand,　the　metasurface　can　convert　TM　(TE)　polarized　incident　wave　into　right　(left)-handed　circularly　polarized　wave　from　9.1　to　16.5　GHz　as　well　as　left　(right)-handed　circularly　polarized　wave　from　20.0　to　25.4　GHz.　On　the　other　hand,　the　metasurface　can　realize　cross-polarization　conversion　between　TM　and　TE　polarized　waves　from　17.4　to　18.9　GHz.　In　addition,　the　transmission　model　is　expanded　from　monolayer　reflective　metasurface　to　multilayer　reflective　metasurface　to　explain　the　conversion　mechanism　whose　theoretical　results　are　highly　consistent　with　the　simulated　and　measured　results.