A method of assembling a mirror head for a vehicular interior rearview mirror assembly includes providing a mirror casing, a mirror reflective element at the mirror casing, and a toggle mechanism, which includes a body portion and a toggle lever joined to the body portion. A lower pivot mount of the toggle mechanism is inserted into a lower receiving portion of the mirror casing and an upper pivot mount of the toggle mechanism is inserted into an upper receiving portion of the mirror casing. An outer surface of the body portion corresponds with adjacent outer surfaces of the mirror casing, and, when the toggle lever pivots relative to the lower receiving portion of the mirror casing, the mirror casing pivots relative to the body portion to flip the mirror head between a first orientation and a second orientation.

A method for assembling a vehicular interior rearview mirror assembly includes providing a mirror mount and a mirror head. The mirror head includes a transparent mirror frame and a mirror reflective element accommodated at the transparent mirror frame. The transparent mirror frame has a patterned front side having a plurality of channels established thereat and a rear side opposite the patterned front side. An illumination source is provided at the mirror head. The patterned front side of the transparent mirror frame is patterned to reflect light emitted by the illumination source, when powered, so that an illumination pattern is visible to a person viewing the rear of the transparent mirror frame. The mirror head is pivotally mounted at the mirror mount.

A method of assembling a mirror head for a vehicular interior rearview mirror assembly includes providing a mirror casing, a mirror reflective element at the mirror casing, and a toggle mechanism, which includes a body portion and a toggle lever joined to the body portion. A lower pivot mount of the toggle mechanism is inserted into a lower receiving portion of the mirror casing and an upper pivot mount of the toggle mechanism is inserted into an upper receiving portion of the mirror casing. An outer surface of the body portion corresponds with adjacent outer surfaces of the mirror casing, and, when the toggle lever pivots relative to the lower receiving portion of the mirror casing, the mirror casing pivots relative to the body portion to flip the mirror head between a first orientation and a second orientation.

A method of manufacturing a load structure may include first forming a panel having a first side and a second side. The method may then include trimming the panel, including clearing a fill passage through the panel from the first side to the second side. The method may then include applying an over rim coating on the second side of the panel via an over rim tool by which a resin may be injected through the fill passage to the second side. The method may further include performing final trimming of the panel, and finally performing final assembly to form the load structure.

A rotor core manufacturing equipment used in a manufacture of a rotor core where magnets are inserted into magnet housing holes formed in a core body and a resin is supplied into the holes and subsequently cured therein. The equipment includes a stationary mold for holding the core body, a movable mold which is arranged on the core body and in which a resin flow passage is formed, and a cull plate that is arranged between the core body and the movable mold, the cull plate including a filling pot that guides the resin flowing out through the resin flow passage to the magnet housing holes and holds a cull as the cured resin. The filling pot includes an inlet which is opposite an outlet of the resin flow passage. The inlet of the filling pot has an area greater than the outlet of the resin flow passage.

A method for the manufacture of a component for a motor-vehicle interior with an associated film in which an electronic circuit is integrated with at least one proximity sensor includes the step of thermoforming the film on a mold element and the step of injection of plastic material in a mold cavity in such a way as to obtain a component for interior of motor-vehicle comprising a body of substantially transparent plastic material associated to the film. The component includes one or more proximity sensors for activating a functional component of the motor-vehicle.

The manufacturing method of a motor core includes attaching an ID code to a stack of blanked members in which a magnet insertion hole to fill with a resin material is formed, the ID code containing information in accordance with a type of the stack, reading the information from the ID code which is attached to the stack, and setting a mold condition based on the information read from the ID code. The mold condition includes at least one type of condition including: the resin material to be injected to the magnet insertion hole, an injection amount of the resin material, and a discharge position of the resin material. A mold device is controlled to inject the resin material to the magnet insertion hole in accordance with the mold condition.

Embodiments of golf club heads and methods to manufacture golf club heads are generally described herein. In one example, a golf club head may include a body portion with a toe portion, a heel portion, a top portion, a sole portion, a back portion, and a front portion. The golf club head may include a first mass portion, a second mass portion, an interior cavity, and a port connected to the interior cavity and configured to receive the first mass portion. Other examples and embodiments may be described and claimed.

A femoral head prosthesis is a multilayer composite having a metal neck stem component thread or press fit into a hollow rigid shell of metal or ceramic, a polymeric core filling the interior volume under the hollow rigid shell and around a forward part of the neck stem, and a smooth, void-free polymeric articulation layer of at most 12 mm over the exterior of the shell. The prosthesis is formed by a polymeric molding process wherein polymerizing resin or heated thermoplastic material is flowed in a mold through a set of holes through the hollow shell into the interior volume and around the shell's exterior. Once the resin has cured or the thermoplastic cooled, the stem, core, shell and articulation layer collectively form an integral prosthesis of a desired head diameter matching a patient's anatomy.

Animal chews are generally formulated with a composition that generally comprises a combination of protein, carbohydrate, fiber, fat, humectants and water, which is formed by mixing, followed by a forming process, such as molding. As described herein, animal chews are made having an outer portion and an inner portion. The inner portion is contained within recesses within the outer portion and can also include runners giving the appearance of a tied rawhide bone.