A device for applying coiling-tension to a slit band sheet (1) includes: an upper structure (3) that is disposed on the upper side of a band sheet (2) which has been passed through a slitter line and slitted; and a lower structure (4) that is disposed on the lower side of the band sheet (2). The upper structure (3) includes two cooling rolls (6) over which an upper belt (5) is stretched, and an upper pressing part (7) that is disposed between the cooling rolls (6). Further, the lower structure (4) includes two cooling roller (9) over which a lower belt (8) is stretched, and a lower pressing part (10) that is disposed between the cooling rolls (9).

An absorption apparatus 1 that is an example of a loop amount absorption apparatus of a slitter line to which the present invention is applied is disposed in a region of a loop pit 3 provided in the slitter line 2. The absorption apparatus 1 includes a negative pressure roll 9 that grips and conveys strips and an up-down moving device 10 that enables the negative pressure roll 9 to move up and down. By gripping and conveying the strips 14 by the negative pressure roll 9, two loops 15 of the strips are formed. The negative pressure roll 9 includes a rotating shaft 16, an inner cylinder 17, an intermediate cylinder 18, and a non-woven fabric laminated outer layer 19.

Equipment for manufacturing a separator plate for a fuel cell, according to an embodiment of the present disclosure, includes: a first uncoiler uncoiling a first metal strip; a second uncoiler uncoiling a second metal strip; a press receiving the first metal strip and the second metal strip to respectively form patterns thereon; a welding machine overlapping and integrally bonding the first metal strip and the second metal strip, transferred from the press, by a welding process; and a cutter cutting a bonded body of the first metal strip and the second metal strip, transferred from the welding machine, wherein the press, the welding machine, and the cutter are sequentially arranged, and the first metal strip and the second metal strip are passed through the press, the welding machine, and the cutter, while connected to each other, to be processed.

The invention may relate, among other things, to a device for straightening a metal strip having two strip drives which are suitable together to apply tension on the metal strip to straighten the metal strip, wherein at least one of the strip drives is a linear drive, characterized in that the at least one linear drive has a positioning device such that the linear drive can be moved relative to the longitudinal axis of the device.

The present invention discloses a dual-band-material conveying device which comprises a material distributing device (4), a feeding device (5) and a conveying line (6). The material distributing device (4) comprises an adjusting plate (44), two limiting pillars (41) and a material distributing pillar (43). The adjusting plate (44) is mounted on the conveying line (6) through a mounting pillar (45), the adjusting plate (44) is provided with an adjusting groove (42) in which the two limiting pillars (41) and the material distributing pillar (43) are mounted. The conveying line (6) is provided with a pit, and the feeding device (5) is mounted in the pit. The feeding device (5) comprises a movable feeding device body (51), a fixed feeding device body (53) and two guide frames (54). The movable feeding device body (51) and the fixed feeding device body (53) are mounted between the two guide frames (54).

A manufacturing method of a metal strip coil for blades includes performing, on a steel band after a finishing cold rolling, a slit process that divides the steel band into a plurality of metal strips via joint operation of circular upper and lower blade cutters, and winding the metal strip into a coil shape after the slit process. In the slit process, a clearance of the upper and lower cutters is set within 5-25% of a metal strip thickness; an overlap amount of the upper and lower cutters is set within 5-80% of the metal strip thickness; and a clearance variation during the slit process is 30% or lower of the clearance. After the slit process, the metal strip is wound into a coil shape so that sag formed on an edge of the metal strip is positioned toward an axis center of a reel winding up the metal strip.

Systems, methods, and devices relating to an additively manufactured multilayered structure. The additively manufactured multilayered structure may be provided by unspooling a material roll of laminate material using a roller system. A welding device may be used to apply welds between layers of the laminate material to distribute a loading between the layers during use.