Integrated process for making inflatable article

What is claimed is: 1. An integrated process for making an inflatable article, comprising the steps of: (A) extruding a tubular film having an outside surface and an inside surface; (B) cooling the tubular film to a temperature low enough that the inside surface of the tubular film is cool enough not to adhere to itself; (C) placing the tubular film into the lay-flat configuration having a first lay-flat side and a second lay-flat side, so that a first inside lay-flat surface of the first lay-flat side of the tubular film is in contact with a second inside lay-flat surface of the second lay-flat side of the tubular film; and (D) heat sealing a selected area of the first lay-flat side of the tubular film to the second lay-flat side of the tubular film to make a sealed tubular film without thermoforming the tubular film, the heat sealing being carried out by passing the tubular film in a partial wrap around a heated roller having a raised surface and a recessed surface, wherein portions of the raised surface are separated by the recessed surface, with the tubular film being heated throughout the partial wrap around the heated roller, and the tubular film spanning over the recessed surface from one portion of the raised surface to another portion of the raised surface, the first lay-flat side of the tubular film contacting the raised surface of the heated roller, with the raised surface heating to a fusion temperature the selected area of the first lay-flat side of the tubular film in contact therewith, the raised surface heating the first lay-flat side of the tubular film to heat seal the selected area of the first lay-flat side of the tubular film to the second lay-flat side of the tubular film in a pattern corresponding with the raised surface while the tubular film is in the lay-flat configuration, the heat sealing being carried out to provide a pattern of sealed and unsealed areas, the heat seal pattern corresponding with the raised surface, with the unsealed areas providing inflatable chambers between the first lay-flat side of the sealed tubular film and the second lay-flat side of the sealed tubular film, the unsealed area corresponding with the recessed surface; and wherein the tubular film is forwarded at a speed of at least 120 feet per minute, and the heated roller having the patterned raised surface has a release coating thereon and raised surface edges rounded off to a radius of from 1/256 inch to ⅜ inch, and further comprising a cooling roller downstream of and in nip relationship with the heated roller, the cooling roller also having a release coating thereon. 2. The process according to claim 1 , wherein the selected area of at least one of the first and second lay-flat sides are heated while they are in contact with one another, with the heat sealing being carried out using a combination of heat and pressure. 3. The process according to claim 1 , wherein the tubular film in lay-flat configuration is passed through a nip formed by a pair of rollers. 4. The process according to claim 3 , wherein a second roller has a raised surface corresponding to the raised surface of the first roller, and the raised surfaces of the first and second rollers are operatively aligned in the heat sealing of the tubular film in lay-flat configuration. 5. The process according to claim 1 , wherein the raised surface on the heated roller has a surface roughness of from 50 to 500 rms. 6. The process according to claim 1 , further comprising cooling the sealed tubular film after the heat sealing the tubular lay flat film, the cooling being carried out by passing the sealed tubular film in a partial wrap around the, wherein the cooling roller is separate from the raised surface roller. 7. The process according to claim 6 , wherein the cooling roller has a Shore A hardness of from 40 to 100. 8. The process according to claim 1 , wherein the tubular film is forwarded at a speed of from 120 to 500 feet per minute, with the patterned raised surface having a surface roughness of from 50 to 500 root mean square, and the release coating on the cooling roller having a Shore A hardness of from 40 to 100.