In one or more embodiments, one or more systems, methods, and/or processes may inject material into a mold for a housing of an information handling system through at least one cavity for at least one pivot and through multiple positions adjacent to a clickpad cavity to create a clickpad portion of the housing; may create multiple bridges at multiple positions that bind the clickpad portion of the housing to other portions of the housing; and may remove the multiple bridges to permit the clickpad portion of the housing to rotate about the at least one pivot. For example, the housing of the information handling system, the at least one pivot, and the clickpad holder may be formed of a unitary material. For instance, the unitary material may be or include a polymer.

Methods and devices for manufacturing plastic preforms and plastic containers are provided. Methods of manufacturing a plastic preform having an inner undercut include forming a preform of plastic in amorphous state and inserting a plug within the mouth of the preform. The plug includes an upper plug member and an expandable element, the expandable element having an initial outer diameter in plan view with the plug in an initial condition and a deployed outer diameter in plan view with the plug in a deployed condition. Methods further include deploying the plug to the deployed condition with the expandable element positioned to engage a side wall proximate the inner undercut and crystallizing the plastic of the preform along the finish portion.

The mold apparatus (1) includes: the stationary mold (12) of the mold main body (2) that molds the main body part (81); the rotary core (20) that molds the undercut part (82) and mold releases by rotationally moving in a direction separating from the undercut part (82); and the restricting core (40) that restricts movement of the rotary core (20) sandwiching between the stationary mold (12) and rotary core (20) during molding, and releases restriction of the rotary core (20) by moving in a direction exiting from between the stationary mold (12) and rotary core (20) during mold release of the rotary core (20) from the undercut part (82).

The device for demolding negatives in thermoplastic injection molds includes an ejector (3), which comprises an ejector profile (5) for the fastening thereof to an ejector plate (2), and a figure insert (6) with a profile that is complementary to the piece (4) to be molded, wherein said ejector (3) further comprises a flexible element (7) arranged between the ejector profile (5) and the figure insert, which pushes said figure insert (6) in order to demold the negative by means of angular displacement and stretches said figure insert (6) so as to return the ejector (3) to the injection position thereof.

It makes it so molding sliders are no longer necessary, hence, these spaces, the costly sliders, and the painstaking machining processes for the installation thereof in the molds are no longer required.

An injection molding method and a deformable molding unit are provided. The method includes the following steps. First, a mold positioning step is performed to define a mold cavity. The step includes: providing a deformable molding unit on a first axis, the deformable molding unit having a deformable cavity and including a bottom portion and a first elastic portion being elastically deformable with respect to the bottom portion; and applying a first compression force to the first elastic portion by a first drive module along a second axis, reducing the size of the deformable cavity to a reduced dimension. Next, plastic is injected into the mold cavity including the deformable cavity with the reduced dimension to form a workpiece. Then, the first compression force is released, allowing the deformable cavity to return to its original dimension. Afterward, the deformable molding unit is retracted along the first axis.