Method of producing opened fiber bundle, and method of producing cleaning member, apparatus which opens fiber bundle, and system which produces cleaning member

The invention claimed is: 1. A method of continuously producing an opened fiber bundle for a cleaning member, the method comprising the steps of: (a 1 ) providing (i) first nip rolls rotating at a constant peripheral velocity, (ii) second nip rolls, which are disposed downstream in a conveying direction from the first nip rolls and have a faster peripheral velocity compared with the first nip rolls, (iii) third nip rolls, which are disposed downstream in the conveying direction from the second nip rolls and have a slower peripheral velocity compared with the second nip rolls, (iv) an air feeder which is disposed between the second nip rolls and the third nip rolls in the conveying direction, and (v) a widening member disposed downstream in the conveying direction from the second nip rolls, wherein the widening member widens the belt-shaped fiber bundle in a width direction thereof while the belt-shaped fiber bundle is in contact with the widening member, and the widening member comprises a curved portion downwardly curved in a thickness direction of the belt-shaped fiber bundle; (a 2 ) conveying a fiber bundle in the conveying direction using the first nip rolls and the second nip rolls to apply a tensile force to the fiber bundle between the first nip rolls and the second nip rolls so that the fiber bundle is extended; (a 3 ) conveying the fiber bundle further downstream in the conveying direction using the second nip rolls and the third nip rolls, which have the slower peripheral velocity compared with the second nip rolls, to relax the fiber bundle by relieving the tensile force and to widen the fiber bundle, thereby forming a belt-shaped fiber bundle; and (a 4 ) blowing air from the air feeder in a direction intersecting with the conveying direction of the belt-shaped fiber bundle. 2. A method of continuously producing an opened fiber bundle for a cleaning member, the method comprising the steps of: (a 1 ) providing (i) first nip rolls rotating at a constant peripheral velocity, (ii) second nip rolls, which are disposed downstream in a conveying direction from the first nip rolls and have a faster peripheral velocity compared with the first nip rolls, (iii) third nip rolls, which are disposed downstream in the conveying direction from the second nip rolls and have a slower peripheral velocity compared with the second nip rolls, and (iv) an air feeder which is disposed downstream in the conveying direction from the second nip rolls, between the second nip rolls and the third nip rolls; (a 2 ) conveying a fiber bundle in the conveying direction using the first nip rolls and the second nip rolls to apply a tensile force to the fiber bundle between the first nip rolls and the second nip rolls so that the fiber bundle is extended; (a 3 ) conveying the fiber bundle further downstream in the conveying direction using the second nip rolls and the third nip rolls, which have the slower peripheral velocity compared with the second nip rolls, to relax the fiber bundle by relieving the tensile force and to widen the fiber bundle, thereby forming a belt-shaped fiber bundle; and (a 4 ) blowing air from the air feeder in a direction intersecting with the conveying direction of the belt-shaped fiber bundle, wherein said providing further includes providing an opening facilitator disposed between the first nip rolls and the second nip rolls, said opening facilitator includes an edge extending orthogonal to the conveying direction, an upstream portion adjacently located upstream from the edge, and a downstream portion adjacently located downstream from the edge, the fiber bundle is pushed onto the upstream portion and the edge of the opening facilitator while being conveyed in the step (a 2 ), and the step (a 2 ) comprises conveying the fiber bundle in a first direction along the upstream portion of the opening facilitator, and then conveying the fiber bundle in a second direction along the downstream portion of the opening facilitator, the second direction different from the first direction. 3. The method according to claim 2 , wherein after the fiber bundle runs through the edge, the fiber bundle is conveyed along the downstream portion of the opening facilitator. 4. The method according to claim 2 , wherein the opening facilitator is static. 5. The method according to claim 1 , wherein the belt-shaped fiber bundle is conveyed and widened while contacting with the curved portion. 6. The method according to claim 2 , wherein an angle between the first and second directions is in a range of 30° to 150°. 7. The method according to claim 2 , wherein fibers located at a first surface of the fiber bundle are in direct contact with the opening facilitator, and fibers located at a second surface, opposite the first surface, of the fiber bundle travel, at the edge of the opening facilitator, over a longer distance than the fibers at the first surface of the fiber bundle. 8. The method according to claim 2 , wherein the step (a 2 ) comprises the conveying the fiber bundle in the second direction is such that the fiber bundle is conveyed along but spaced away from the downstream portion of the opening facilitator. 9. The method according to claim 1 , wherein the step (a 1 ) further comprises providing tension rolls between the first nip rolls and the second nip rolls in the conveying direction, and the tension rolls gradually increase the tensile force applied to the fiber bundle.