Omnidirectional pressure intensity detection internet-of-things sensing device based on integral mechanics

The invention discloses an integral mechanics-based omnidirectional pressure detection internet-of-things sensing device, which comprises a T-shaped pressure detector group, a core unit and flexible rubber capable of generating indentation, and is characterized in that the inner wall of the flexible rubber abuts against the T-shaped pressure detector group, the T-shaped pressure detector group comprises a plurality of T-shaped Beidou pressure detectors and a plurality of T-shaped ground wave pressure detectors, and the T-shaped Beidou pressure detectors and the T-shaped ground wave pressure detectors are arranged on the core unit. The plurality of T-shaped Beidou pressure detectors and the plurality of T-shaped ground wave pressure detectors are spatially and alternately distributed on the peripheral side of the core unit, the at least two T-shaped Beidou pressure detectors are arranged at two pole positions of the core unit, and the at least two T-shaped ground wave pressure detectors are arranged at the equ