A method of manufacturing a seal assembly for attachment to a vehicle having a securing point spaced from a vehicle point at a distance with an apparatus having first and second receptacles defining a cavity, and a bracket apparatus defining a bracket cavity, including: forming a first strip having a first body with first ends; forming a second strip having a second body with second ends; positioning one first end into the first receptacle with the first body adjacent to the bracket cavity; positioning one second end into the second receptacle; forming a molding bonding the strips together to define a mold point; forming a bracket with a receiver at a receiver point, and an interface bonded to the first body spaced such that a distance between the receiver point of the bonded bracket and the mold point is equal to the distance between the securing and vehicle points.

Peripheral portion of filters includes short-side portions and long-side portions. A first component and a second component each include a first holding section and a second holding section, the long-side portion of the filter being compressively held between the first holding sections, and the short-side portion of the filter being compressively held between the second holding sections. At least one of the first component and the second component includes a wall portion configured to isolate the long-side portion and the resin from each other. The short-side portion and the resin are in contact with each other.

A sealing member, that is a resin molded product to be joined to a flow path forming member through which a fluid flows, has a surface including an opening constituting or including a portion of the flow path, a protrusion surrounding the circumference of the opening and a rib having one of its opposite ends connected to a part of the protrusion and the other end located inside or outside of the protrusion. The protrusion has at the top thereof a contact region to be pressed against and held in contact with the flow path forming member.

A method for insert molding a product which includes providing an insert having a plurality of elements that are loosely linked together; applying a bonding agent to at least two of the elements to temporarily link those to elements in substantially locked mutually fixed relationship; supporting the at least two elements within a mold; injecting molding material within the mold whereby a molded part surrounding the at least two elements is formed; and flexing the molded part to substantially unlock the elements disposed in substantially locked mutually fixed relationship.

For manufacturing a component formed of a plurality of moldings, which are made of plastic, are welded together. A first molding is manufactured in a first mold that has a first mold part and is then transported with the first mold part into a welding station. Correspondingly, a second molding is manufactured in a second mold that has a second mold part and is transported with the second mold part into the welding station. The mold parts holding the moldings are moved towards one another in the welding station such that the moldings are welded together. Additional moldings are manufactured in the molds simultaneously with the welding of the moldings.

A passive horn integrally formed by using liquid silicone rubber, includes a first outer casing, a second outer casing, an inner casing and an iron piece. The first outer casing includes a sealing ring, a folding ring and a vibrating membrane, and the sealing ring, the folding ring and the vibrating membrane are integrally injection molded into the first outer casing. A groove is disposed in the second outer casing, and the first outer casing is disposed in the groove. The back surface of the vibrating membrane is provided with a casing groove, which is sequentially embedded with the inner casing and the iron piece. A preparation method of a passive horn integrally formed by using liquid silicone rubber, under the condition of integrated injection molding, may improve the yield rate, ensure product quality, save assembly time and labor cost, and improve production efficiency.

A tubular body formed by joining two semi-tubular portions that are divided in radial direction, the tubular body having a connection flange portion provided with a bolt hole on at least one end portion. The two semi-tubular portions have joint projection portions at both edge portions in circumferential direction, the joint projection portions projecting in radial direction and extending in axial direction, and each joint projection portion of the semi-tubular portions on at least one of both sides in circumferential direction is configured to be bent so as to deviate from a virtual division face passing a central axis in such a manner that a joint portion formed by abutting the joint projection portions does not interfere with a tool for fastening a bolt inserted into the bolt hole in a predetermined area in the vicinity of the bolt hole of the connection flange portion.

A keycap forming method includes the following steps. Firstly, a stabilizer bar is formed through a first male mold and a first female mold according to an injection molding process, and a keycap is formed through a second male mold and a second female mold according to the injection molding process. Then, the stabilizer bar is fixed on the first male mold, and the keycap is fixed on the second female mold. Then, the first male mold and the second female mold are stacked on each other, so that the stabilizer bar and the keycap are combined together. Then, the first male mold and the second female mold are separated from each other, so that the stabilizer bar is detached from the first male mold. By using the keycap forming method, it is not necessary to manually assemble the stabilizer bar with the keycap.

A method for producing a thermoplastic container (1) for gases or liquids. First, in an injection mould having a first (28) and a second mould (29), in a first position providing each a cavity (34) for an upper (2) and a lower shell (3), producing the shells in parallel. Next, opening the mould, the shells (2, 3) remaining in a respective mould. Then, turning or shifting at least one of the two moulds such that the concave interior sides of the shells are aligned against each other and closing the mould, so that the edge regions (7, 8) of the shells come into face-to-face contact. Injection material is injected into a cavity (49) between or adjacent to the edge areas (7, 8), forming an all-round welded seam (11) between the upper part (2) and the lower part (3). Finally the mould is opened and the at least one container is removed.

The present invention provides a method for producing molded articles by joining primary molded parts by injection welding, by which a molded article composed of primary molded parts that are joined with high weld strength can be produced. The present invention relates to a method for producing molded articles including a welding step of injecting an injection welding material containing a polyamide around or between butt weld portions of primary molded parts disposed in face-to-face contact, so as to weld the primary molded parts together to form a molded article. The polyamide contains dicarboxylic acid units and diamine units. This polyamide further contains triamine units in an amount of 0.05 to 1 mol % with respect to the total dicarboxylic acid units.