To　limit　the　falling　of　many　power　poles　in　areas　affected　by　typhoons,　the　wind-bearing　capability　of　pole　foundations　must　be　verified　for　transmission　and　distribution.　A　mechanical　loading　scheme　is　proposed　in　this　paper　to　simulate　the　wind　loads　for　power　poles　in　transmission　and　distribution　systems.　First,　the　calculation　algorithm　for　wind　loads　on　wired　power　poles　is　discussed,　and　the　range　of　wind　loads　is　derived　and　highlighted　for　normal　power　poles.　Consequently,　a　mechanism　model　that　is　loaded　with　a　pole　bending　moment　is　presented,　and　a　detailed　mechanical　design　of　the　loading　mechanism　is　implemented　through　optimization　and　simulation.　Detection　units　and　motor　devices　are　designed　for　installation　on　the　mechanism　links　to　realize　the　automatic　loading　and　unloading　control　of　pole　bending　moments.　Field　experiment　results　show　that　the　bending　moment　exerted　on　power　poles　can　reach　a　maximum　value　of　40kNm　loading　moment.　Furthermore,　this　system　has　the　advantages　of　automatic　loading　and　unloading,　convenient　assembly　and　disassembly,　and　easy　operation.　Hence,　the　research　achieves　its　objective.　©　2015　IEEE.