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1. An assembly for controlling detonation wave mode of a rotating detonation combustion chamber, comprising an inner barrel, an outer plate and at least one sectoral direction-changing block, wherein the outer plate is sleeved outside the inner barrel, an annular cavity having an perimeter is formed between the outer plate and the inner barrel, at least one groove is arranged on a side of the outer plate close to the inner barrel, a groove wall of the at least one groove comprises an arc edge and a straight edge, the straight edge being inclined and connected to the perimeter of the annular cavity, the at least one groove is connected with the annular cavity, the at least one sectoral direction-changing block is arranged in the at least one groove in one-to-one correspondence, the arc edge of the at least one groove is conformal with an arc edge of the at least one sectoral direction-changing block, the at least one sectoral direction-changing block is obliquely arranged relative to the straight edge, an included angle between the straight edge and a side wall of the at least one sectoral direction-changing block close to and facing the straight edge is 30-45°, an arc direction-changing channel is defined between the arc edge of the at least one groove and the arc edge of the at least one sectoral direction-changing block, a straight inlet channel is defined between the straight edge and the side wall of the at least one sectoral direction-changing block close to and facing the straight edge, where the rotation detonation combustion chamber has a predetermined rotating detonation wave direction in the annular cavity, when the rotating detonation wave derives a secondary wave rotating reversely relative to the predetermined rotating detonation wave direction, the secondary wave enters the straight inlet channel and the arc direction-changing channel where the secondary wave is subjected to direction changing, the secondary wave after the direction changing has a same rotation direction as the predetermined rotating detonation wave direction and exits the groove to rotate with the predetermined rotating detonation wave direction in the annular cavity, and the at least one sectoral direction-changing block has a central angle of 30-45°.
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