Method and apparatus for pleating or shaping a web

What is claimed is: 1. An apparatus for shaping a web that is moving in an incoming machine direction so that the web is bent in the cross-machine direction about at least one generally machine direction-oriented axis, said apparatus comprising a. a forming guide comprising two side edges, an upstream end, a downstream end, a web-facing surface and an opposing surface, wherein said web-facing surface of said forming guide comprises alternating generally machine direction-oriented ridges and valleys therein that are located at least adjacent to said downstream end of the forming guide, and said web-facing surface is configured to provide a substantially equal path length across the width of said web-facing surface when said path length is measured through a series of points, each point being equidistant from one side edge of the web; and b. a device or mechanism for maintaining a web at least partially in contact with the web-facing surface of said forming guide, which device or mechanism is positioned close to the forming guide and arranged to apply force to at least a portion of a web to maintain the web at least partially in contact with the web-facing surface of said forming guide; wherein the ridges and valleys are substantially disposed in a first generally triangular-shaped field when said forming guide is viewed in plan view, wherein said first generally triangular-shaped field has a base and a peak, and the first generally triangular-shaped field is oriented such that the base of the triangular field forms a downstream portion of the forming guide. 2. An apparatus for shaping a web that is moving in an incoming machine direction so that the web is bent in the cross-machine direction about at least one generally machine direction-oriented axis, said apparatus comprising a. a forming guide comprising two side edges, an upstream end, a downstream end, a web-facing surface and an opposing surface, wherein said web-facing surface of said forming guide comprises alternating generally machine direction-oriented ridges and valleys therein that are located at least adjacent to said downstream end of the forming guide, and said web-facing surface is configured to provide a substantially equal path length across the width of said web-facing surface when said path length is measured through a series of points, each point being equidistant from one side edge of the web; and b. a device or mechanism for maintaining a web at least partially in contact with the web-facing surface of said forming guide, which device or mechanism is positioned close to the forming guide and arranged to apply force to at least a portion of a web to maintain the web at least partially in contact with the web-facing surface of said forming guide the web-facing surface of said forming guide is configured to provide a substantially equal path length in that the web-facing surface further comprises at least two projections thereon that are spaced further outward on said web-facing surface than portions of said forming guide other than said ridges, wherein said projections have a length and a width, wherein the length of the projections is greater than their width, and the projections are oriented so that their length dimension is at an acute angle to said ridges, and the projections align with said ridges. 3. The apparatus of claim 2 wherein the length dimension of said projections is oriented substantially normal to the incoming machine direction. 4. The apparatus of claim 2 wherein projections intersect with said ridges along a diagonal line when said forming guide is viewed in plan view. 5. The apparatus of claim 2 wherein said projections are substantially disposed in a second generally triangular-shaped field when said forming guide is viewed in plan view, wherein said second generally triangular-shaped field has a base and a peak, and the second generally triangular-shaped field is oriented such that the base of the triangular field forms an upstream portion of the forming guide. 6. The apparatus of claim 2 wherein said generally machine direction-oriented ridges comprise a first group of ridges, and at least some of the projections on said forming guide are in the form of ridges and comprise a second group of ridges. 7. The apparatus of claim 2 wherein at least some of the projections on said forming guide comprise rollers having an axis oriented at an acute angle to the generally machine direction-oriented ridges. 8. An apparatus for shaping a web that is moving in an incoming machine direction so that the web is bent in the cross-machine direction about at least one generally machine direction-oriented axis, said apparatus comprising a. a forming guide comprising two side edges, an upstream end, a downstream end, a web-facing surface and an opposing surface, wherein said web-facing surface of said forming guide comprises alternating generally machine direction-oriented ridges and valleys therein that are located at least adjacent to said downstream end of the forming guide, and said web-facing surface is configured to provide a substantially equal path length across the width of said web-facing surface when said path length is measured through a series of points, each point being equidistant from one side edge of the web; and b. a device or mechanism for maintaining a web at least partially in contact with the web-facing surface of said forming guide, which device or mechanism is positioned close to the forming guide and arranged to apply force to at least a portion of a web to maintain the web at least partially in contact with the web-facing surface of said forming guide wherein said device for maintaining the web at least partially in contact with said forming guide comprises a device that provides air pressure on said web. 9. An apparatus for shaping a web that is moving in an incoming machine direction so that the web is bent in the cross-machine direction about at least one generally machine direction-oriented axis, said apparatus comprising a. a forming guide comprising two side edges, an upstream end, a downstream end, a web-facing surface and an opposing surface, wherein said web-facing surface of said forming guide comprises alternating generally machine direction-oriented ridges and valleys therein that are located at least adjacent to said downstream end of the forming guide, and said web-facing surface is configured to provide a substantially equal path length across the width of said web-facing surface when said path length is measured through a series of points, each point being equidistant from one side edge of the web; and b. a device or mechanism for maintaining a web at least partially in contact with the web-facing surface of said forming guide, which device or mechanism is positioned close to the forming guide and arranged to apply force to at least a portion of a web to maintain the web at least partially in contact with the web-facing surface of said forming guide wherein the mechanism for maintaining the web at least partially in contact with said forming guide comprises drawing a vacuum on the web through the forming guide.