The invention relates to a mold assembly used in the production of plastic injection pet preforms and similar plastic products. The invention comprises the jaw (10) that forms the mouth of the PET preform on the injection mold and has the first conical jaw ring (70) on one side and the second conical jaw ring (80) on the other side, the cavity (20), which is locked to the side of the jaw (10) with the first conical jaw ring (70), by means of the cavity ring (50) connected to the upper surface and forming the outer wall of the PET preform, the locking ring (40) that is locked to the side of the jaw (10) with the second conical jaw ring (80) by means of the core ring (60) connected to its upper surface, the core (30) that is connected on the locking ring (40) and forms the inner wall of the PET preform.

The present disclosure generally relates to additive manufacturing systems and methods involving a mechanism for feeding in a desired amount of fresh recoater blade. This can be accomplished by, for example, spooling the fresh blade material from a spool. This helps prevent work stoppage when a portion of a recoater blade becomes damaged. As such, the present disclosure also relates to a system and method for detecting whether a recoater blade is damaged, and if there is damage, then causing a fresh blade portion to be fed in.

The present disclosure generally relates to additive manufacturing systems and methods involving a mechanism for feeding in a desired amount of fresh recoater blade. This can be accomplished by, for example, spooling the fresh blade material from a spool. This helps prevent work stoppage when a portion of a recoater blade becomes damaged. As such, the present disclosure also relates to a system and method for detecting whether a recoater blade is damaged, and if there is damage, then causing a fresh blade portion to be fed in.

A clean pneumatic conveying shield includes a shield body used for picking up an expanded material from an expanded material discharge port and pneumatically conveying the expanded material to the next process and provided with a hollow closed inner cavity, an outlet pipeline positioned in the middle of the top of the shield body and communicated with the inner cavity of the shield, and at least 2 inlet pipelines positioned at the top of the shield body, arranged around the outlet pipeline and communicated with the inner cavity of the shield. The shield body is provided with a splitter plate corresponding to each inlet pipeline and capable of rotating, an upper partition plate positioned above each splitter plate and a lower partition plate positioned below each splitter plate.

A clean pneumatic conveying shield includes a shield body used for picking up an expanded material from an expanded material discharge port and pneumatically conveying the expanded material to the next process and provided with a hollow closed inner cavity, an outlet pipeline positioned in the middle of the top of the shield body and communicated with the inner cavity of the shield, and at least 2 inlet pipelines positioned at the top of the shield body, arranged around the outlet pipeline and communicated with the inner cavity of the shield. The shield body is provided with a splitter plate corresponding to each inlet pipeline and capable of rotating, an upper partition plate positioned above each splitter plate and a lower partition plate positioned below each splitter plate.

The object of the invention is a lens for a lighting and/or signaling device of a motor vehicle including a first layer of material (4), arranged on a first face (8) of which is a second layer of material (6) with additional thickness, said second layer extending partially over the first layer so as to have one end edge (16) overhanging an exposed portion (14) of the first layer of material. The exposed portion (14) of the first layer of material (4), which is not covered by the second layer of material, includes on said first face (8) a notch (18) which extends along said end edge (16) of the second layer of material (6).

The object of the invention is a lens for a lighting and/or signaling device of a motor vehicle including a first layer of material (4), arranged on a first face (8) of which is a second layer of material (6) with additional thickness, said second layer extending partially over the first layer so as to have one end edge (16) overhanging an exposed portion (14) of the first layer of material. The exposed portion (14) of the first layer of material (4), which is not covered by the second layer of material, includes on said first face (8) a notch (18) which extends along said end edge (16) of the second layer of material (6).

A mold surface repairing process, the process flow of which is as follows: first sand blastingdefect identificationrepairing weldingcoarse grindingsemi-finishing grindingfinishing grindingsecondary sand blastingmold heatingspray paint. The disclosure provides a combination of automatic equipment, special grinding tools and finishing grinding process, which ensures the quality and efficiency of the mold repair and reduces the labor force.

A mold surface repairing process, the process flow of which is as follows: first sand blastingdefect identificationrepairing weldingcoarse grindingsemi-finishing grindingfinishing grindingsecondary sand blastingmold heatingspray paint. The disclosure provides a combination of automatic equipment, special grinding tools and finishing grinding process, which ensures the quality and efficiency of the mold repair and reduces the labor force.

The present disclosure is directed methods for modifying molds of rotor blades of a wind turbine. In certain embodiments, the blade mold is constructed, at least in part, of a thermoplastic material optionally reinforced with a fiber material. In one embodiment, the method includes identifying at least one blade mold addition for the mold of the rotor blade and positioning the blade mold addition at a predetermined location of the mold of the rotor blade. Further, the blade mold addition is constructed, at least in part, of a thermoplastic material. Thus, the method includes applying at least one of heat, pressure, or one or more chemicals at an interface of the blade mold addition and the mold so as to join the blade mold addition to the mold. In further embodiments, the methods described herein are also directed repairing thermoplastic blade molds.