Provided are devices and methods of applying a film (120) to a first panel of a vehicle wherein the first panel is connected to a second panel of the vehicle by a joint area containing a ditch portion (52) that is recessed relative to the first panel. The method includes the steps of placing into the ditch portion (52) an elongated jig (100) that comprises a shim (102) extending continuously along the length of the ditch portion (52), the shim (102) protruding above a height of the first panel, applying the film (120) to the first and second panels such that the film (120) extends over the elongated jig (100), and then using a tool (122) to apply pressure against the film (120) and toward a cutting edge of the shim (102) along the length of the shim (102) to trim the film (120) along a peripheral edge. The elongated jig (100) can then be removed from the ditch portion (52), and the peripheral edge of the film (120) adhered to the ditch portion (52).

The application relates to a method for producing a double-walled pipe (1) and a pipe (1) of this type, hating an outer pipe (3) which is press-fitted with an inner pipe (2) consisting of a corrosion-resistant alloy, wherein an adhesive (4) is inserted at least in regions between the outer pipe (3) and the inner pipe (2) wherein, after adhering the inner pipe (2) with the outer pipe (3), the inner pipe (2) and the adhesive layer (4) are removed at the pipe ends, and the inner side of the outer pipe (3) is plated via an integral connection with the inner pipe (2).

A production line for producing components to a high standard of cleanliness and sealed and protected in that state includes a loading device, a cleaning device, a detecting device, a pasting device, a heat-sealing device, a packing device, and transfer devices of the production line. The production line automatically processes the components for obtaining components with the high cleanliness. By the processes of protective film pasting, heat-sealing, and packing, the components may be further protected from subsequent pollution. A method for producing components with a high cleanliness applied to the production line is also disclosed.

A tubular support member located in a distal portion of an elongate flexible medical device is provided with a plurality of wall openings, e.g., axially-spaced, substantially transverse slots, formed therein to thereby increase a flexibility of the support member. A layer of sealing material overlays an outer surface the support member so as to provide a sealed portion of the support member including the wall openings, the sealing material having respective flexible invaginations formed therein overlaying the wall openings in the support member so that the sealing material does not substantially impede flexibility of the support member.

Disclosed is a case for attaching a screen protector film for a mobile terminal. The case for attaching a screen protector film for a mobile terminal includes: a film housing that has a film seat for keeping a screen protector including a separation film and a screen protector film that is separated from the separation film to be attached to a screen of a mobile terminal; and a movable member that is coupled to and separated from the film housing by moving in a movement direction parallel with the longitudinal direction of the screen protector and has a terminal seat disposed perpendicular to the movement direction and corresponding to the upper end or the lower end of a mobile terminal, in which the movable member is connected to the screen protector film at a predetermined area around the terminal seat.

A method for producing a liner hose (2) for lining pipelines, comprising the method steps of moving a circumferentially closed inner film hose (4) over a winding mandrel (6) of a winding apparatus (8) and wrapping the inner film hose (4), which is guided on the winding mandrel (6) by means of a guide mechanism (18), with a fibrous strip (12) which has been impregnated with curable reaction resin, is characterized in that the inner film hose (4) is guided via endless pulling means (14) that circulate without a drive, and in that the inner film hose (4) that has been wrapped with the fibrous strip (12) is moved off of the winding mandrel (6) solely by a pull-off mechanism (16) which acts from the outside on the fibrous strip (12). The invention further relates to a device for carrying out the method.

This invention offers a method to install a wear-resistant polymeric sleeve in a pipe bend stiffener with a metal inner wall, including the following steps: calculate thickness of the internal wall of the stiffener that can removed; remove the thickness of at least a portion of the calculated inner wall; and apply a polymeric material sleeve in the inner wall of the stiffener, where the polymeric material sleeve has the thickness of the inner wall removed.

The present disclosure provides a method of applying a protective film on at least one portion of a wind turbine blade, a wind turbine blade, and an apparatus for forming a groove on a surface of at least one portion of a wind turbine blade. The method of applying a protective film on at least one portion of a wind turbine blade comprises providing the at least one portion of the wind turbine blade; forming a groove on a surface of the at least one portion of the wind turbine blade, thereby delimiting a first region of the surface of the at least one portion of the wind turbine blade from a second region of the surface of the at least one portion of the wind turbine blade, wherein the first region of the surface of the at least one portion of the wind turbine blade includes the groove; covering the first region of the surface of the at least one portion of the wind turbine blade with a protective film; and pressing an edge region of the protective film in the groove, thereby inserting the edge region of the protective film in the groove.

A tool conveying device includes a bracket, a pair of pulleys rotatably mounted on the bracket, an endless belt connected between the pair of pulleys, and holding tools connected to the endless belt and spaced apart from each other. Each of the holding tools includes an extension part and a joint part. The extension part is adapted to be clamped between a pair of conveyor belts of a heat shrink machine, so that the holding tool and the endless belt can circulate along an annular path between a loading position and an unloading position of the heat shrink machine under the drive of the pair of conveyor belts. The joint part is provided on the end of the extension part and is adapted to join with a connection end of heat shrink tube harness product for holding the connection end of the heat shrink tube harness product.

A method of lining a piping assembly with rubber to form a rubber liner. An inner surface of the piping assembly is selected for lining. One or more containment devices are attached/inserted in the piping based on the selected surfaces. The inflatable bladder is introduced to an inner bore of the piping. The inflatable bladder is inflated to a predetermined pressure. An oven or autoclave is heated to a predetermined temperature. The piping assembly is introduced to the oven and heated until a predetermined curing temperature. The piping assembly is cooled for a predetermined cooling time and a rubber inner liner is formed on the selected surface.