The　use　of　renewable　energy　for　power　generation　and　hydrogen　production　can　improve　the　economic　efficiency　of　multi-energy　coupled　microgrids,　as　well　as　the　capacity　of　renewable　energy　to　be　consumed.　In　this　paper,　a　deep　interactive　dispatching　strategy　for　multi-energy　coupled　microgrid　is　proposed.　Firstly,　a　multi-energy　coupled　microgrid　structure　is　built,　incorporating　an　electric　hydrogen　production　system　on　the　load　side.　An　economic　analysis　of　the　deep　interaction　of　multiple　energy　sources　is　then　conducted　based　on　electricity　to　hydrogen　energy　consumption　for　dispatching　decisions　and　supporting　strategies.　Simulation　is　also　carried　out　for　the　verification　of　the　deep　interactive　dispatching　model.　It　proves　the　rationality　and　feasibility　of　the　proposed　model　for　scheduling　energy　use　within　a　multi-energy　system.　©　2023　IEEE.