This cover channel (41) is configured for covering, at least in part, an edge (29) of an insulating panel (4A) with two outer walls (21, 23), the cover channel comprising an elongated body (43) comprising a cover portion (45), two outer portions (51), protruding respectively from an edge of said cover portion in a substantially perpendicular direction relative to the cover portion, and two clamping portions (53), each protruding from the cover portion alongside one of the outer portions for clamping a rim portion (31, 33) of one of the two outer walls. According to the invention, the cover channel (41) comprises a sealing gasket (63) provided along the elongated body (43), resting against the cover portion (45) within at least one of the clamping gaps (55).

Method for binding a bundle (5) of leaves (1) in a binding back (7), whereby the bundle (5) is placed in the binding back (7) with an edge (2) of the leaves (1) and fastened therein, characterised in that for the binding use is made of a bundle (5) of leaves (1) of which a strip (4) of each of the leaves (1) has been separately double folded beforehand along the same line to form a fold line (3) that extends parallel to and at a distance (A) from the aforementioned edge (2).

The present disclosure relates to a heat conductive sheet that includes a heat generation component having a large heat generation amount. The heat conductive sheet according to the present disclosure includes a heat radiation sheet having a graphite sheet, a first protective film provided on one surface side of the graphite sheet, and a second protective film provided on another surface side of the graphite sheet. The heat radiation sheet includes a bent part that is bent, and a first heat radiation part and a second heat radiation part that are coupled to each other through the bent part and overlapping with each other in a view from above. Further, a first non-adhesive area in which the first heat radiation part and the second heat radiation part are not adhered to each other is provided between the first heat radiation part and the second heat radiation part.

Method for binding a bundle (5) of leaves (1) in a binding back (7), whereby the bundle (5) is placed in the binding back (7) with an edge (2) of the leaves (1) and fastened therein, characterised in that for the binding use is made of a bundle (5) of leaves (1) of which a strip (4) of each of the leaves (1) has been separately double folded beforehand along the same line to form a fold line (3) that extends parallel to and at a distance (A) from the aforementioned edge (2).

A nonwoven trough and method of construction thereof are provided. The nonwoven trough includes at least one nonwoven wall formed from a mixture of bonded natural cellulosic fibers and thermoplastic fibers. The at least one nonwoven wall extends along a longitudinal axis and has a midsection and opposite end portions. The midsection has a base and a pair of walls extending upwardly from the base to provide the midsection with a generally U-shaped cross-section taken generally transversely to the longitudinal axis. At least one flange extends laterally from the at least one nonwoven wall, wherein the flange is configured for attachment to a vehicle member.

Method for binding a bundle (5) of leaves (1) in a binding back (7), whereby the bundle (5) is placed in the binding back (7) with an edge (2) of the leaves (1) and fastened therein, characterized in that for the binding use is made of a bundle (5) of leaves (1) of which a strip (4) of each of the leaves (1) has been separately double folded beforehand along the same line to form a fold line (3) that extends parallel to and at a distance (A) from the aforementioned edge (2).

The present invention includes a system, method, and apparatus for preventing corrosion in a lap joint. The lap joint includes a first member and a second member. The first member is adjacent to the second member to form a lap seam of the lap joint. The first member forms a channel at the lap seam relative to the second member. The channel forms a V shape, a U shape, or a semicircle shape relative to a horizontal plane of the lap joint. One or more openings are formed on the first member and/or the second member. The openings and channel of the present invention allows anticorrosion material to coat the lap seam of the lap joint.

This cover channel (41) is configured for covering, at least in part, an edge (29) of an insulating panel (4A) with two outer walls (21, 23), the cover channel comprising an elongated body (43) comprising a cover portion (45), two outer portions (51), protruding respectively from an edge of said cover portion in a substantially perpendicular direction relative to the cover portion, and two clamping portions (53), each protruding from the cover portion alongside one of the outer portions for clamping a rim portion (31, 33) of one of the two outer walls. According to the invention, the cover channel (41) comprises a sealing gasket (63) provided along the elongated body (43), resting against the cover portion (45) within at least one of the clamping gaps (55).

A seaming element for seaming industrial textiles for filtration or other uses, an industrial textile with seaming elements, and a method of seaming such textiles. The seaming element is secured to a first seamable end or edge of the fabric, and includes at least one extension member, which can be a channelled protrusion, and which is engageable with a corresponding at least one extension member of a corresponding seaming element secured to the second seamable end or edge. The seaming elements are configured and dimensioned so that when the extensions or protrusions of the two seaming elements are aligned together and engaged, in some embodiments being secured by a pintle, they have a thickness which is compatible with the caliper of the finished fabric, to form a secure seam while avoiding or minimizing any discontinuity or irregularity in the finished fabric.

A profiled reinforcement element and a method for manufacturing such an element to be embedded in an elastomer strip, in particular a sealing strip or edge protection strip, the profiled reinforcement element being formed by a metal strip which is extended by expanding incisions located at a regular distance from each other and is shaped by creating profiled sections and introducing beads. Openings that have a closed rim and are formed by expanding the incisions are completely enclosed by beads.