A component having a flat reinforcing element of a first stiffness and a flat material of a second stiffness. The first stiffness is higher than the second stiffness. The flat reinforcing element has a first end on a first narrow side. The flat material, on a second narrow side thereof, has a second end that bifurcates into two strips. The two strips of the second end enclose the first end on both sides in a zone of enclosure.

A method of fabricating a paddlewheel for a flow meter is provided. The method can include providing an inner part of the paddlewheel. The method can also include inserting a plurality of magnets in the inner part of the paddlewheel. The method can also include overmolding an outer part of the paddlewheel over the inner part of the paddlewheel.

A method of fabricating a paddlewheel for a flow meter is provided. The method can include providing an inner part of the paddlewheel. The method can also include inserting a plurality of magnets in the inner part of the paddlewheel. The method can also include overmolding an outer part of the paddlewheel over the inner part of the paddlewheel.

Provided is a decorative sheet in which a graphic is less deteriorated even after injection molding. First and second graphic layers contain a plurality of interference pigments that emit respective interference lights having respective colors in a first direction in first and second binders to exhibit first and second mixed colors. An optical functional layer changes a reflectance property of light. The first and second graphic layers represent a graphic visually recognizable from a front surface of a decorative sheet and allow visually recognizing an image displayed on a back surface from the front surface. The optical functional layer increases at least one of ratios of an amount of visible light representing the graphic and an amount of visible light representing the image that transmits through the first and second graphic layers to an amount of visible light reflected by and visible on the front surface.

A method for producing a housing of an air conditioner, in which at least a part of the housing is produced as a plastic part by means of an injection molding process by injecting a plastic into a mold cavity of an injection molding tool, wherein a damping element is placed in the injection mold prior to injection of the plastic into the injection mold so that the damping element establishes a bond with the plastic during injection of the plastic into the injection mold and becomes a component of the injection-molded plastic part.

A molding die includes a first mold assembly, a second mold assembly, and a mold core. The first and second mold assemblies are adapted to be clamped together. The mold core defines a molding groove. The molding core is pressed between the first and second mold assemblies to form a molding cavity. The second mold assembly includes a light transmitting area corresponding to the molding cavity, so that the molding cavity will receive incident light through the light transmitting area. In the molding die, the first mold assembly, the second mold assembly, and the mold core cooperate to form the molding cavity, adhesive is injected into the molding cavity, and the molding cavity receives incident light through the light transmitting area, so that curing efficiency of the adhesive is improved, production efficiency is high, shape of molded adhesive is uniform, and product quality is improved.

A seal assembly includes a body portion defining a mounting channel for receiving a vehicle flange. A base of the body portion defines an outer surface of the body portion with the outer surface defining a first axis of curvature adapted to correspond with a contour of the flange. The seal assembly further includes a sealing lip portion co-extruded with the body portion and defining a notch having a notch configuration, an element disposed in the notch and pre-formed to have an element configuration corresponding to at least a part of the notch configuration, and a molding material molded to a back surface of the element, secured to the sealing lip portion within the notch, and extending across the notch, with the element and the molding material defining a contour lip portion that in combination with the sealing lip portion defines an external sealing lip of the seal assembly.

A solar heat exchanger for heating water which includes an array of tubes, an injection molded manifold there being connections between each tube in the array and the manifold which are over molded to seal the tubes to the manifold.

In a method for producing a housing of an electronic module, a lead with a bondable lead surface is injection molded with a plastic in a plastic injection mold such as to leave at least a part of each bondable lead surface from being injection molded and to form the lead with a pin recess which passes through the plastic and has a lead recess in the lead and which is sealed on opposing sides by a stamp component and a matrix component of the injection molded tool when the injection molded tool is closed, with the stamp component and the matrix component being injection-molded after the injection molded tool is closed. An electrically conductive pin element is inserted into the pin recess such as to guide the pin element through the lead recess of the pin recess.

An encapsulation assembly includes a body located at edges of the functional glass; and a conductive module embedded in the body or located on a surface of the body, and electrically connected to a functional module on the functional glass. The process of forming an encapsulated glass from the encapsulation assembly for a functional glass can omit complicated manufacturing steps and save materials and thus reduce costs. An easy and stable control of the functional module in the glass can also be accomplished. Moreover, it is much easier to form an encapsulated glass from the glass, which facilitates glass mounting.