Polymeric adhesives, which are thin, soft and flexible, with skin conformal interfaces are attractive for haptic interface technology capable of transmitting sophisticated mechanical stimulation. However, conventional polymeric skin adhesives cannot maintain adequate adhesion to the haptic interface, such as repetitive vibrations or sweaty skin. Here, we report skin adhesive patches inspired by the hybrid architectures of frog toe pads’ hexagonal arrays and snail pedal muscles’ energy dissipation layer with interlocked structures. Our adhesive patch exhibits remarkable adhesion in both dry and sweaty conditions. Adhesion force enhanced by the energy dissipation was analyzed as a simple theory based on the adhesion, elastic, and dissipation energies. For potential application, we evaluated vibrational resistance and demonstration of vibration feedback system in virtual reality. This haptic interface for virtual reality devices, propose new strategies for developing metaverse technology.