Embodiments of the present disclosure include a rotational molding device. The rotational molding device comprises a frame, a vessel coupled to the frame and configured to be heated or cooled, and a mold coupled to the frame and configured to rotate about a first axis by a first rotation mechanism and configured to rotate about a second axis by a second rotation mechanism. The vessel includes a particle bed comprising a plurality of fluidized particles, the mold is configured to form a molded part, and the mold includes a cavity corresponding to a shape of the molded part.

Embodiments of the present disclosure include a rotational molding device. The rotational molding device comprises a frame, a vessel coupled to the frame and configured to be heated or cooled, and a mold coupled to the frame and configured to rotate about a first axis by a first rotation mechanism and configured to rotate about a second axis by a second rotation mechanism. The vessel includes a particle bed comprising a plurality of fluidized particles, the mold is configured to form a molded part, and the mold includes a cavity corresponding to a shape of the molded part.

A single layer solar rotational molded article prepared from a blend of a) from 1 wt % to 95 wt % based on the weight of the blend, of a first composition comprising a melt flow index of from 2 g/10 mins. to 10 g/10 mins., b) from 5 wt % to 99 wt % based on the weight of the blend, of a second composition comprising a melt index of 0.5 g/10 mins. to 8.0 g/10 mins., and c) from 1 wt % to 95 wt % based on the weight of the blend, of a third composition comprising a melt flow index of from 5 g/10 mins. to 20 g/10 mins.

A double-shaft rotating structure applicable to electric heating forming equipment, comprising: a main shaft, a shell, a first auxiliary shaft, two second auxiliary shafts, a third auxiliary shaft, two first collector slip rings, a second collector slip ring, two fixed disks and a plurality of electric heating elements. The double-shaft rotating structure applicable to electric heating forming equipment may enable a mold on the forming equipment to achieve double-shaft continuous rotation; furthermore, the structure is relatively simple while covering a small floor area, energy-saving and environmentally-friendly, and relatively low-cost.

A double-shaft rotating structure applicable to electric heating forming equipment, comprising: a main shaft, a shell, a first auxiliary shaft, two second auxiliary shafts, a third auxiliary shaft, two first collector slip rings, a second collector slip ring, two fixed disks and a plurality of electric heating elements. The double-shaft rotating structure applicable to electric heating forming equipment may enable a mold on the forming equipment to achieve double-shaft continuous rotation; furthermore, the structure is relatively simple while covering a small floor area, energy-saving and environmentally-friendly, and relatively low-cost.

A PVC ball with a multi-layer structure, wherein the ball skin layer of the PVC ball is used as the outer ball skin, and the second PVC ball skin layer is used as the inner ball skin. The inner wall of the first PVC ball skin layer is fused with the outer wall of the second PVC ball skin layer; an air nozzle is inserted and connected to an inflation nozzle structure of the first PVC ball skin layer and the second PVC ball skin layer. The upper mold and the lower mold of the device are provided with closed mold fasteners for controlling opening and closing. One end of the rotation shaft is connected to the lower mold, the other end of the rotation shaft is rotatably connected to the mold frame, and one end of the revolution shaft is rotatably connected to the mold frame.

A PVC ball with a multi-layer structure, wherein the ball skin layer of the PVC ball is used as the outer ball skin, and the second PVC ball skin layer is used as the inner ball skin. The inner wall of the first PVC ball skin layer is fused with the outer wall of the second PVC ball skin layer; an air nozzle is inserted and connected to an inflation nozzle structure of the first PVC ball skin layer and the second PVC ball skin layer. The upper mold and the lower mold of the device are provided with closed mold fasteners for controlling opening and closing. One end of the rotation shaft is connected to the lower mold, the other end of the rotation shaft is rotatably connected to the mold frame, and one end of the revolution shaft is rotatably connected to the mold frame.

A building assembly system that comprises thermoformed high density polyethylene molded components filled with high density polyurethane foam. The molded components are configured in a cube or triangle form and secured against a steel frame to provide a habitable constructed unit. The composition of the high density polyethylene molded components filled with high density polyurethane foam meets standards for the American Society for Testing and Materials for a habitable structure used by humans. The habitable structure can be used on land or water.

A solar rotational manufacturing system having a monitoring device, a controller, a heliostat having a heliostat controller, a rotational apparatus having a rotational controller, and a mold, wherein the monitoring device is configured to collect actual data regarding a characteristic of the solar rotational heating system and transmit actual data to the controller, the controller is configured to receive a reference parameter, an affecting parameter, and linking instructions, receive actual data from the monitoring device, compare actual data with a reference parameter, determine an affecting parameter to alter, and transmit alteration instructions to the heliostat controller and/or the rotational controller, the heliostat controller is configured to receive the alteration instructions from the controller and execute the alteration instructions, and the rotational controller is configured to receive the alteration instructions from the controller and execute the alteration instructions.

Polyolefin hollow articles prepared via a rotomolding process are provided flame retardancy by incorporating therein a phosphonate ester, an N-alkoxy hindered amine and melamine cyanurate.