An injection molding device (1) includes a center part (3) and a rotating device (2) for rotating the center part (3) in the injection molding device (1). The rotating device (2) includes a base (4) supported with respect to an injection molding machine. A thereto attached column (5) extends in an axial direction (z) above the base (4). A sleeve (6) coaxially surrounds the column (5) and is at least partially arranged in the center part (3). The sleeve (6) rotates with the center part (3) around the column (5). The column (5) is arranged removable with respect to the center part (3).

An injection molding device (1) includes a center part (3) and a rotating device (2) for rotating the center part (3) in the injection molding device (1). The rotating device (2) includes a base (4) supported with respect to an injection molding machine. A thereto attached column (5) extends to an axial direction (z) above the base (4). A sleeve (6) coaxially surrounds the column (5) and is at least partially arranged in the center part (3). The sleeve (6) rotates with the center part (3) around the column (5). The column (5) is arranged removable with respect to the center part (3).

The invention relates to an injection molding device (1) with at least one first and at least one second outer mold half (11, 12), which are arranged in a movable manner relative to each other in a first direction (x). A central part (5) which can be rotated about a rotational axis (17) is arranged between the two mold halves, said central part having an upper part (6) and a lower part (7). First inner mold halves (13) are attached in pairs to the lower part (6), and second inner mold halves (14) are attached in pairs to the upper part (7). Said inner mold halves interact with the in a closed position thereto assigned first and second outer mold halves (11,12) in order to form cavities. The first and the second inner mold halves (13, 14) and the assigned first and second outer mold halves (11, 12) form a lower and an upper production plane (32, 33).

An injection molding device (1) includes a center part (3) and a rotating device (2) for rotating the center part (3) in the injection molding device (1). The rotating device (2) includes a base (4) supported with respect to an injection molding machine. A thereto attached column (5) extends in an axial direction (z) above the base (4). A sleeve (6) coaxially surrounds the column (5) and is at least partially arranged in the center part (3). The sleeve (6) rotates with the center part (3) around the column (5). The column (5) is arranged removable with respect to the center part (3).

An injection molding device (1) includes a center part (3) and a rotating device (2) for rotating the center part (3) in the injection molding device (1). The rotating device (2) includes a base (4) supported with respect to an injection molding machine. A thereto attached column (5) extends to an axial direction (z) above the base (4). A sleeve (6) coaxially surrounds the column (5) and is at least partially arranged in the center part (3). The sleeve (6) rotates with the center part (3) around the column (5). The column (5) is arranged removable with respect to the center part (3).

A multi-step method for producing a composite component made of thermoplastic material and insulating foam, the method utilizing a multiple mold with a first cell and at least one second cell, provided with a male element and a female element, the cells taking a first closed configuration and a second open configuration; the method including: closing the multiple mold and, through a channel, injecting the thermoplastic material from a hot chamber to the first cell; solidifying the thermoplastic material and opening the multiple mold to move the solidified thermoplastic material from the first cell to the second cell; closing the multiple mold and, while a new injection occurs in the first cell, an insulating foam is injected into the second cell; opening the double mold and, while the finished product is extracted from the second cell, a new transfer occurs from the first cell.

A one-step injection molding mold of a tubular product. The mold divides a product into two parts for one-step injection molding, and includes a mounting retainer plate, runner stripper plate, front and rear mold plates, ejector retainer plate, ejector baseplate and a mounting baseplate, which are stacked, wherein the ejector retainer plate and baseplate are fixed together, two side edges thereof having square blocks, a first and a second hydraulic cylinder are arranged at the top of the mold, a third hydraulic cylinder is arranged on the external side surface of the mounting baseplate, and a fourth hydraulic cylinder is arranged on one side surface of the front mold plate adjacent to the rear mold plate. Further, a one-step injection molding method of a tubular product, including steps 1-6. The mold and the molding method thereof may increase the product yield and ensure a safe production process.

An injection molding method of a part for vehicle interiors includes arranging a mold having a first injection chamber defining in negative a base of the part. Thermoplastic material is injected into the first chamber and the base is extracted from the first chamber and placed in a second injection chamber. A lining film is inserted in the second chamber and deforming it to arrange the film on an outer surface thereof, adhering to an esthetic wall of the second chamber opposite a functional wall. An intermediate plastic layer is injected in a gap between an inner wall of the base facing the lining film, and an inner surface of the lining film opposite the outer surface to create a single sandwich structure. The intermediate layer is between the lining film and the base, has lower hardness than the base and forms a yielding padding for the lining film.

A moulding machine suitable for producing an article having two or more parts, the moulding machine comprising two or more mould sections for respective article parts and an in-mould pick and place mean. A moulding machine including one or more moulds and a robot pick-and-place system, in which the robot pick-and-place system is fixed to a mould. A method of forming an article having two or more parts, in which a first part of the article is moulded in a first mould section of a moulding machine comprising two or more mould sections for respective article parts and an in-mould pick and place means, and the in-mould pick and place means moves a moulded first part of the article from the first mould section to a second mould section of the two or more mould sections.

An injection moulding machine used for producing a multiplicity of different injection mouldings includes a first injection mould half and a second injection mould half each having a multiplicity of partial cavities. In a closed position of the injection moulding machine, the partial cavities of the first injection mould half, together with corresponding partial cavities of the second injection mould half, form at least a multiplicity of different mould cavities corresponding to the multiplicity of injection mouldings to be produced, each of said cavities having an injection opening. The first and second injection mould halves are movable relative to an injection unit of the injection moulding machine along a second motion axis, wherein the second motion axis is perpendicular to a first motion axis, along which the injection mould halves are movable towards one another in the direction of the closed position and away from one another in the direction of an open position. The at least one first outlet opening of the injection unit can be brought into fluid communication with each injection opening of each mould cavity by moving the first and second injection mould halves along the second motion axis.