In　this　study,　a　vacuum　tube　integrated　collector-storage　solar　air　heater　using　lap-joint-type　micro-heat　pipe　arrays　and　long　straight　fins　as　heat　exchange　component　is　proposed,　and　the　heat　collecting　projection　area　is　0.51　m2.　No.52　industrial　paraffin　is　selected　as　heat　storage　material　and　has　a　mass　of　9.8　kg.　The　design,　working　principle　and　thermal　responses　under　the　conditions　of　charging　only　and　discharging　only　are　introduced　in　detail.　In　order　to　meet　the　practical　application　requirements　of　the　collector,　the　experimental　conditions　are　selected　in　the　winter　and　transition　seasons,　which　are　two　weather　conditions　with　high　heat　demand.　In　addition,　the　effects　of　air　flow　rate　and　inlet　temperature　on　the　discharging　performance　of　the　device　are　also　described　in　detail.　The　results　show　that　the　vacuum　tube　integrated　collector-storage　solar　air　heater　has　experienced　outstanding　charging　and　discharging　performance.　The　average　charging　and　extraction　power　can　reach　294.2　W　(576.9　W/m2　of　heat　collecting　area)　and　1041.2　W.　The　total　efficiency　in　the　transition　season　and　winter　can　reach　63.2%　and　56.3%.　©　2025　Science　Press.　All　rights　reserved.