We　investigate　the　joint　effects　of　the　intralead　electron　interaction　and　an　external　alternating　gate　voltage　on　the　transport　of　a　quantum　dot　coupled　to　two　Luttinger　liquid　leads　in　the　Kondo　regime.　We　find　the　transferring　between　two　Kondo　physics　mechanics　by　investigation　of　differential　conductance.　For　very　weak　intralead　interaction,　the　satellite　and　main　Kondo　resonant　peaks　appear　in　the　differential　conductance.　For　moderately　strong　intralead　interaction,　all　the　peaks　disappear　and　evolve　into　dips,　which　signifies　that　a　photon-assisted　single-channel　Rondo　(1CK)　physics　turns　into　two-channel　Rondo　(2CK)　physics.　The　1CK　and　2CK　mechanisms　can　coexist　within　a　region　of　the　intralead　interaction　parameter.　The　1CK　physics　transits　to　the　2CK　one　gradually,　not　suddenly.　In　the　limit　of　strong　interaction,　all　dips　disappear.　When　the　bias　voltage　is　small,　there　is　no　photon　exchange　between　the　quantum　dot　and　alternative　field,　and　the　differential　conductance　scales　as　a　power　law　both　in　bias　voltage　and　in　temperature.　As　the　field　becomes　stronger,　the　quantum　dot　will　emit　and　absorb　photons.　(C)　2017　Elsevier　B.V.　All　rights　reserved.