The inventive method for making a medical device includes providing a micro plastic tube; molding a hub onto the tube; trimming the tube to a predetermined length; molding a tip onto the tube, and creating a tip that contains a micro orifice at a predetermined angle.

A rotor assembly is provided for an electric motor. The rotor assembly includes: a cylindrical magnet member having magnetization in both axial and radial directions, the magnet member being formed from a moldable magnetic material; and an output shaft receivable within the magnet member. An inner surface of the magnet member and an outer surface of the output shaft have complementarily-engagable interface elements thereon to prevent or limit dislocation of the magnet member and output shaft, and at least one of the interface elements is formed by overmolding of the magnet member and output shaft with the other of magnet member and output shaft.

A vehicle-window glass assembly includes a vehicle-window glass and its injection-molded encapsulation; and an over-molded bolt including a base, a thread rod and an injection-molded part. One end of the thread rod is fixedly connected to the base, and the injection-molded part covers at least a part of the base. The injection-molded encapsulation covers at least a part of the injection-molded part such that the over-molded bolt and the vehicle-window glass are fixed to each other, and a material of the injection-molded part has a tensile strength greater than that of a material of the injection-molded encapsulation. This vehicle-window glass assembly can b e adapted to various vehicle models with a large gap between a surface of a vehicle-window glass and a vehicle-door sheet metal on which the vehicle-window glass requires to be mounted.

A lamp includes: a housing in which an accommodating portion for accommodating a sealed member is arranged; a lens which covers the accommodating portion and is bonded to the housing; and a resin bonding material which is in contact with the housing and the lens and bonds the housing to the lens. Besides, the housing includes, as the accommodating portion, a first accommodating portion having an elongated shape, and a second accommodating portion having an accommodating part wider than that of the first accommodating portion, wherein a first abutting surface of the housing and a second abutting surface of the lens in the second accommodating portion are formed in a manner that the respective surfaces thereof have an uneven shape. The resin bonding material is in contact with a protruding surface of the housing and a wall portion of the lens.

A method of forming a handle for an oral care implement. The method may include first forming a core structure out of a first hard plastic. Next, an elongated handle body may be formed out of a second hard plastic, whereby during formation the elongated handle body is made to partially surround the core structure, while leaving opposing surfaces of the core structure exposed. Finally, a grip cover may be formed out of a resilient material and positioned over at least a portion of the elongated handle body. The oral care implement handle formed by the method may include a handle having an elongated handle body and a core structure. The elongated handle body may have openings in opposing surfaces. The core structure may be partially surrounded by the elongated handle body while protruding from the openings.

A method for producing a component, wherein in the method the following steps are carried out, in particular in the following sequence: providing at least one upper mold carrier and at least one lower mold carrier, wherein the at least one upper mold carrier has at least two upper mold modules and the at least one lower mold carrier has at least one lower mold module; moving the at least one upper mold carrier and/or the at least one lower mold carrier in at least one direction into at least one predetermined position; combining a first upper mold module of the at least two upper mold modules of the at least one upper mold carrier and a first lower mold module of the at least one first lower mold module of the at least one lower mold carrier in the at least one predetermined position such that one or more work stations for carrying out at least one step for producing the component are formed; carrying out the at least one production step to form the component, as well as a device for producing a component.

A method of forming a molded polymer part having a screw boss includes positioning a screw boss insert on a pin of a mold tool. The screw boss insert may contact guide surfaces of the mold tool. During molding, polymer material flows along the screw boss insert while the screw boss insert is positioned on the pin. The polymer material may bond to the screw boss insert. The screw boss insert may include one or more geometric features that prevent rotation and/or axial movement of the screw boss insert relative to the surrounding polymer material.

A manufacturing method for a pressure tank includes disposing a preform, in which a fiber layer is formed on an outer surface of a liner that forms an internal space of a pressure tank, within a mold, and rotating the preform in a circumferential direction within the mold with a central axis of the preform as a rotation center while resin is injected toward the preform disposed within the mold from a gate.

The invention relates to a technical field of car roller shutter door production, in particular to a method for manufacturing a car roller shutter door. A single film piece is firstly vacuum formed into a desired shape, and then rubber is injected into the film piece after vacuum forming, so that the rubber and the film piece are integrally formed to form a single roller shutter strip, and then a required number of single roller shutter strips are placed and laminated on a flexible substrate in an integrated and orderly manner to form a car roller shutter door. Each of roller shutter strips is independent of each other and does not interfere or affect each other, which improves flexibility of the car roller shutter door. Compared with long strips of whole film sheet on the car roller shutter door in the prior art, each of film pieces of the present invention is independent of each other and does not have defect of easy fracture of the whole film sheet, which makes service life long. In addition, production of the single film piece is less expensive and more efficient, and pattern design is flexible. When one of the roller shutter strips is damaged, only the damaged roller shutter strip needs to be replaced in a targeted manner, avoiding the waste of resources and reducing maintenance costs.

A radar cover (10) includes a transparent member (11), a base member (13) that is disposed on a back surface of the transparent member (11) and supports the transparent member (11), and an inner emblem (12) that is disposed between the transparent member (11) and the base member (13), in which the inner emblem (12) includes an island portion (12a) of which a periphery is surrounded by a part of the base member (13) when viewed from a laminating direction, a peripheral portion (12b) that is disposed apart from the island portion (12a) when viewed from the laminating direction, and a connecting portion (12c) that is embedded in the base member (13) and connects the island portion (12a) and the peripheral portion (12b) when viewed from the laminating direction.