A mold device includes a primary mold and a secondary mold. The primary mold includes a cavity mold and a primary core mold. The primary mold is configured to inject a first resin material into a first cavity to mold a primary molded product, the first cavity being formed by clamping the cavity mold and the primary core mold. The secondary mold includes the cavity mold and a secondary core mold. The secondary mold is configured to inject a second resin material into a second cavity to stack mold a secondary molded product on a peripheral edge of the primary molded product. The second cavity is formed by clamping the cavity mold and the secondary core mold. The cavity mold is configured to hold the primary molded product. The cavity mold includes a primary molded product holding portion configured to project into and retract from the first cavity, on a parting line of the primary mold. The secondary core mold includes a slide portion configured to project into and retract from the second cavity on a parting line of the secondary mold. The slide portion having a shape that complements the primary molded product holding portion. At the time of mold opening in primary molding, the primary molded product holding portion protrudes into the first cavity locks an end surface of the primary molded product to hold the primary molded product in the cavity mold. At the time of mold clamping in secondary molding, the primary molded product holding portion retracts from the second cavity and the slide portion slides relative to the primary molded product holding portion to protrude into the second cavity, to define the second cavity.

A mold device includes a primary mold and a secondary mold. The primary mold includes a cavity mold and a primary core mold. The primary mold is configured to inject a first resin material into a first cavity to mold a primary molded product, the first cavity being formed by clamping the cavity mold and the primary core mold. The secondary mold includes the cavity mold and a secondary core mold. The secondary mold is configured to inject a second resin material into a second cavity to stack mold a secondary molded product on a peripheral edge of the primary molded product. The second cavity is formed by clamping the cavity mold and the secondary core mold. The cavity mold is configured to hold the primary molded product. The cavity mold includes a primary molded product holding portion configured to project into and retract from the first cavity, on a parting line of the primary mold. The secondary core mold includes a slide portion configured to project into and retract from the second cavity on a parting line of the secondary mold. The slide portion having a shape that complements the primary molded product holding portion. At the time of mold opening in primary molding, the primary molded product holding portion protrudes into the first cavity locks an end surface of the primary molded product to hold the primary molded product in the cavity mold. At the time of mold clamping in secondary molding, the primary molded product holding portion retracts from the second cavity and the slide portion slides relative to the primary molded product holding portion to protrude into the second cavity, to define the second cavity.

A method for producing parts from polymer in a mould comprising first and second mould portions that can be moved relative to each other, comprising: closing (202) the mould in order to form a first injection cavity connected to an injection device by the first mould portion, injecting (204) material into the first injection cavity in order to form a first part, moving (206) one of the mould portions relative to the other, the first part remaining connected to the second mould portion, closing (208) the mould to form: a second injection cavity connected to the injection device by the first mould portion, and a first solidification cavity in which the first part is disposed, injecting (210) material into the second injection cavity to form a second part and simultaneously solidifying the first part disposed in the first solidification cavity.

A method for producing parts from polymer in a mould comprising first and second mould portions that can be moved relative to each other, comprising: closing (202) the mould in order to form a first injection cavity connected to an injection device by the first mould portion, injecting (204) material into the first injection cavity in order to form a first part, moving (206) one of the mould portions relative to the other, the first part remaining connected to the second mould portion, closing (208) the mould to form: a second injection cavity connected to the injection device by the first mould portion, and a first solidification cavity in which the first part is disposed, injecting (210) material into the second injection cavity to form a second part and simultaneously solidifying the first part disposed in the first solidification cavity.

An apparatus for molding articles includes a first mold carrier configured to angularly displace relative to a fixed structure from a first molding position to first accessing position and a second mold carrier traveling with the first mold carrier and configured to angularly displace relative to the first mold carrier from a second molding position to a second accessing position. The first mold carrier may be pivotably coupled to the fixed structure; the second mold carrier may be slidably and rotatably coupled to the first mold carrier. A third mold carrier may be provided, and the second mold carrier may be located between the first and third mold carriers. An articulation mechanism may be provided to control relative motion of the second mold carrier relative to the first mold carrier as the first mold carrier pivots relative to the fixed structure. A method for molding articles is also provided.

An apparatus for molding articles includes a first mold carrier configured to angularly displace relative to a fixed structure from a first molding position to first accessing position and a second mold carrier traveling with the first mold carrier and configured to angularly displace relative to the first mold carrier from a second molding position to a second accessing position. The first mold carrier may be pivotably coupled to the fixed structure; the second mold carrier may be slidably and rotatably coupled to the first mold carrier. A third mold carrier may be provided, and the second mold carrier may be located between the first and third mold carriers. An articulation mechanism may be provided to control relative motion of the second mold carrier relative to the first mold carrier as the first mold carrier pivots relative to the fixed structure. A method for molding articles is also provided.

A stack mold carrier for supporting a center mold section of an injection molding machine, including a platen assembly, is disclosed. The stack mold carrier includes a carrier base which includes a mold support portion for coupling with and supporting the center mold section. A linkage assembly is pre-installed on the carrier base and a first restraint system is provided for releasably retaining the linkage assembly in a first, non-operational position wherein the linkage assembly is fixed relative to the carrier base such that the stack mold carrier can be disposed on the platen assembly as an assembled unit. The stack mold carrier includes a second restraint system for releasably retaining the stack mold carrier on the platen assembly prior to connection with the center mold section.

A stack mold carrier for supporting a center mold section of an injection molding machine, including a platen assembly, is disclosed. The stack mold carrier includes a carrier base which includes a mold support portion for coupling with and supporting the center mold section. A linkage assembly is pre-installed on the carrier base and a first restraint system is provided for releasably retaining the linkage assembly in a first, non-operational position wherein the linkage assembly is fixed relative to the carrier base such that the stack mold carrier can be disposed on the platen assembly as an assembled unit. The stack mold carrier includes a second restraint system for releasably retaining the stack mold carrier on the platen assembly prior to connection with the center mold section.

The compositions herein are directed to a rubber composition, which contains a polymer crosslinked with methacrylate and polyacrylate, a polysaccharide or gum, and a cellulose base for filling molds.

The compositions herein are directed to a rubber composition, which contains a polymer crosslinked with methacrylate and polyacrylate, a polysaccharide or gum, and a cellulose base for filling molds.