A buoyancy-propelled, submergible, toy projectile is provided. The toy projectile includes a toy body and a suction cup that is connected to the toy body and provides a means by which the toy projectile can be adhered to an submerged surface of a fluid reservoir. The toy body provides a buoyancy to the toy projectile such that when the toy projectile is submerged in fluid, the buoyancy of the toy will drive it rapidly towards the surface of the fluid.

The invention is Sinkable Toy Warships, in particular, remotely controlled toy boats that can shoot water, be shot at by other boats, retain water that hits them directly, continue to be operational after being hit, sink when a predetermined volume of water has been absorbed, remain near the surface where it can be located and can be recovered after being submerged with no ill-effects to the electric and electronic components on board.

The invention is remote-controlled water toy that has an outer shell that is a continuous and external surface, a plurality of apertures in the outer shell that allow water to infiltrate the outer shell, and an interior volume that collects and stores water that has infiltrated the outer shell. The remote-controlled water toy can shoot water, be shot at by other similar vehicles, retain water that hits them directly in the interior volume, continue to be operational after being hit, and sink or otherwise become deactivated when a predetermined volume of water has infiltrated the exterior shell.

A frame apparatus for use in a body of water, comprising a deformable frame, a substantially solid buoyancy member arranged to substantially float in water, and a tether connected to the buoyancy member, the tether having an adjustable length, the tether arranged to be removably connected to the deformable frame. A game apparatus for use underwater comprising the frame apparatus and further comprising at least one secondary deformable frame arranged to be removably attached to the deformable frame, a pair of containers each having a tether with an adjustable length, where the tethers are arranged to be removably connected to at least one of the aforementioned deformable frames. A corresponding method of playing an underwater game using the game apparatus is also disclosed.

A frame apparatus for use in a body of water, comprising a deformable frame, a substantially solid buoyancy member arranged to substantially float in water, and a tether connected to the buoyancy member, the tether having an adjustable length, the tether arranged to be removably connected to the deformable frame. A game apparatus for use underwater comprising the frame apparatus and further comprising at least one secondary deformable frame arranged to be removably attached to the deformable frame, a pair of containers each having a tether with an adjustable length, where the tethers are arranged to be removably connected to at least one of the aforementioned deformable frames. A corresponding method of playing an underwater game using the game apparatus is also disclosed.

A toy water ball is provided, which relates to the technical field of entertainment toys. The toy water ball includes a first shell, a second shell and a vertical guide column structure; the first shell and the second shell are fastened to each other to form a closed water accommodating cavity; and the vertical guide column structure is arranged in the middle of an inner bottom of the second shell. During use, the first shell and the second shell of the toy water ball are put into water after being opened. After the cavity is filled with water, the first shell and the second shell are fastened to form the toy water ball filled with water.

A toy water ball is provided, which relates to the technical field of entertainment toys. The toy water ball includes a first shell, a second shell and a vertical guide column structure; the first shell and the second shell are fastened to each other to form a closed water accommodating cavity; and the vertical guide column structure is arranged in the middle of an inner bottom of the second shell. During use, the first shell and the second shell of the toy water ball are put into water after being opened. After the cavity is filled with water, the first shell and the second shell are fastened to form the toy water ball filled with water.

The invention is Sinkable Toy Warships, in particular, remotely controlled toy boats that can shoot water, be shot at by other boats, retain water that hits them directly, continue to be operational after being hit, sink when a predetermined volume of water has been absorbed, remain near the surface where it can be located and can be recovered after being submerged with no ill-effects to the electric and electronic components on board.

A toy water ball includes at least two shells that are enclosable to form a water storage cavity, each of the shells including: a mounting frame, a magnetic member and a water pocket mounted on the mounting frame. The mounting frame includes a first surface and a second surface oppositely arranged in a thickness direction thereof. When the shells are enclosed to form the water storage cavity, magnetic members of adjacent shells attract each other, and second surfaces of adjacent shells abut each other. The mounting frame is provided with an accommodation groove, a notch of the accommodation groove is located on the first surface, the magnetic member is installed in the accommodation groove, and the water pocket is connected to the first surface, and covers the notch of the accommodation groove on the first surface to seal the magnetic member in the mounting frame.

A toy water ball includes at least two shells that are enclosable to form a water storage cavity, each of the shells including: a mounting frame, a magnetic member and a water pocket mounted on the mounting frame. The mounting frame includes a first surface and a second surface oppositely arranged in a thickness direction thereof. When the shells are enclosed to form the water storage cavity, magnetic members of adjacent shells attract each other, and second surfaces of adjacent shells abut each other. The mounting frame is provided with an accommodation groove, a notch of the accommodation groove is located on the first surface, the magnetic member is installed in the accommodation groove, and the water pocket is connected to the first surface, and covers the notch of the accommodation groove on the first surface to seal the magnetic member in the mounting frame.