A toy top includes a shaft portion, a body and an attacking member. The body is rotatable relative to the shaft portion in response to an impact applied to the body. The attacking member is movably connected to the body to move in a predetermined direction relative to the body between first and second positions. In the second position, the attacking member protrudes from the body a variable protruding distance which varies according to the rotating position of the body relative to the shaft portion.

A top toy includes a trunk part having an insertion hole, first and second shafts, a locking part being configured on the trunk part to lock first and second locked parts and to hold the first and second shafts. The first and second shafts are interchangeable. When the first shaft is employed, the first shaft is inserted in the insertion hole. When the first shaft is employed, the locking part is configured to hold the first shaft elastically and radially inwardly. When the second shaft is employed, the second shaft is inserted in the insertion hole. When the second shaft is employed, the locking part is configured to hold the second shaft elastically and radially inwardly.

A top toy includes a trunk part having an insertion hole, first and second shafts, a locking part being configured on the trunk part to lock first and second locked parts and to hold the first and second shafts. The first and second shafts are interchangeable. When the first shaft is employed, the first shaft is inserted in the insertion hole. When the first shaft is employed, the locking part is configured to hold the first shaft elastically and radially inwardly. When the second shaft is employed, the second shaft is inserted in the insertion hole. When the second shaft is employed, the locking part is configured to hold the second shaft elastically and radially inwardly.

The present invention relates to a top generating a clear collision sound when the top collides with another top so as to make playing with a top more exciting, and having an improved fastening structure for a metal wheel on the top so as to allow the metal wheel to sufficiently vibrate when the top collides.

A spinning top toy including a body and a separate shaft portion. The body has a first hook and the shaft portion has a second hook. The body and the shaft portion are switchable between couplable and decouplable states depending on a relative rotational position. The first hook and the second hook are vertically aligned in the couplable state, and are vertically misaligned in the decouplable state. An urging unit brings an upper face of the first hook and a bottom face of the second hook into contact by an urging force of a spring in the couplable state. The body and the shaft portion enter the couplable state by turning and pushing. The body and the shaft portion engage each other by bringing the upper face of the first hook into contact with the bottom face of the second hook by the urging force of the spring.

A spinning top toy including a body and a separate shaft portion. The body has a first hook and the shaft portion has a second hook. The body and the shaft portion are switchable between couplable and decouplable states depending on a relative rotational position. The first hook and the second hook are vertically aligned in the couplable state, and are vertically misaligned in the decouplable state. An urging unit brings an upper face of the first hook and a bottom face of the second hook into contact by an urging force of a spring in the couplable state. The body and the shaft portion enter the couplable state by turning and pushing. The body and the shaft portion engage each other by bringing the upper face of the first hook into contact with the bottom face of the second hook by the urging force of the spring.

A spinning top toy includes a braking member, a shaft part which is configured to be rotated, and a body which is detachably attached to the shaft part. The body is configured to be detached from the shaft part by being rotated with respect to the shaft part. When an impact is applied to the body, the braking member is configured on one of the shaft part and the body and is movable by a centrifugal force. When urged by the centrifugal force, the braking member is configured to become in contact with the other of the shaft part and the body.

A spinning top toy includes a braking member, a shaft part which is configured to be rotated, and a body which is detachably attached to the shaft part. The body is configured to be detached from the shaft part by being rotated with respect to the shaft part. When an impact is applied to the body, the braking member is configured on one of the shaft part and the body and is movable by a centrifugal force. When urged by the centrifugal force, the braking member is configured to become in contact with the other of the shaft part and the body.

A toy top includes a shaft portion, a body, and a first attacking member and a second attacking member that are disposed at different circumferential direction positions of the body. The first attacking member is movable between an inner first position and an outer second position in a radial direction. The second attacking member is movable between an inner third position and an outer fourth position in the radial direction. The first attacking member is biased toward the first position and is movable to the second position by centrifugal force. The second attacking member is restrained at the third position when the first attacking member is at the first position and is released from restraint to be moved to the fourth position when the first attacking member is at the second position.

A toy top includes a body, a shaft portion, a movable component and a biasing member. The movable component includes at least a portion of the body and is movable upward and downward along the rotational axis of the toy top. The biasing member urges the movable component upward or downward. The movable component has a circumferential face that flares away from the biasing direction of the biasing member as the circumferential face recedes from the rotational axis. When the circumferential face collides with an opponent toy top, the movable component moves against a biasing force of the biasing member in a direction opposite to the biasing direction, and then the movable component is urged by resilience of the biasing member, so that the opponent toy top is moved in the biasing direction.