Manufacturing Process

Procuring And Storing The Kraft Paper

Kalinga Packers is committed to understanding and meeting our customer needs and expectations.

• Rolls of Kraft paper for corrugating are available in many sizes to fit the production equipment at different corrugating plants. The most common roll sizes are 70 inches (180 centimeters) wide
• At the plant, the Kraft paper is separated into different grades, which will be used for the medium and the liner. These different grades of corrugated cardboard can be made by combining different grades of Kraft paper. A knowledgeable packaging specialist works with a customer to determine the strength required for the corrugated cardboard container being planned. Then, when a plant receives an order for containers, a product engineer specifies the combination of medium and liner to produce a cardboard to match the customer's requirement.

• Using powerful fork-lifts, skilled equipment operators select, move, and load rolls of Kraft paper at one end of the corrugators.
• Corrugating is done in a machine that utilizes heavy rollers. One roll of cardboard is corrugated and then glued between two other layers (liners) by the same machine. The glue is then cured by passing the cardboard over heated rolls.
• One roll of medium is loaded to run through the corrugating rolls, and a roll of liner is fed into the corrugators to be joined with the corrugated medium. Liner from another roll travels up over the corrugating rolls along a flat structure called the bridge. This liner will be glued to the corrugated medium later in the process.
• For a large production run, additional rolls are loaded into automatic splicer’s. Sensitive detectors check the rolls of paper feeding into the corrugators. When a roll is nearly empty, the corrugators control system starts a splicer, and paper from the new roll is joined to the end of the paper going through the machine. Thus, production of corrugated cardboard is continuous, and no production speed is lost.

• The medium to be corrugated is fed into the giant, electrically driven rollers of the corrugators, first through the preheating rollers and then into the corrugating rolls. Steam at pressure 1.3 mpa is forced through both sets of rollers, and, as the paper passes through them, temperatures reach 350 to 365 degrees Fahrenheit (177 to 185 degrees Celsius).
• The corrugating rolls are covered with I O flutes—horizontal, parallel ridges like the teeth of massively wide gears. When the hot paper passes between the corrugating rolls, the flutes trap and bend it, forming the middle part of a sheet of corrugated cardboard. Each corrugating machine has interchangeable corrugating rolls featuring different flute sizes. Installing a different

• A finished piece of corrugated cardboard consists of a single corrugated layer sandwiched between two liner layers.
  Flute size in the corrugators changes the width of the corrugated medium.
• The medium travels next to a set of rollers called the single-facer glue station. Here, one layer of liner is glued to the medium. Starch glue is carefully applied to the corrugated edges of the medium, and the first layer of liner is added. From the single-facer, the medium and liner go to the double-backer glue station where the other layer of liner from the bridge is added following the same procedure. Continuing through the corrugators, the cardboard passes over steam-heated plates that cure the glue.

Forming The Blanks Into Boxes

• At the end of corrugators, a slitter-scorer trims the cardboard and cuts it into large sheets called box blanks. Box blanks pop out of the slitter-scorer like wide slices of toast and slide into an automatic stacker that loads them onto a large, rolling platform. From here, they will be transported to the other machines that will convert them into finished containers. Skilled production workers use a computer terminal and printer to prepare a job ticket for each stack of box blanks produced by the corrugators. With the job ticket, workers can route the stack to the right fabrication machines, called flexos (the name is short for flexographic machine). A flexo is a wide, flat machine that processes box blanks.
• Printing dies and die-cutting patterns I 3 are prepared in a pattern shop on large, flexible sheets of rubber or tin. The dies and patterns are loaded onto the large rollers in the flexo, and the box blanks are automatically fed through it. As each blank passes through the rollers of the flexo, it is trimmed, printed, cut, scored, and, in a printer-folder-gluer, folded and glued to form a box. From the flexo, the finished boxes are automatically stacked and sent to a banding machine to be wrapped for shipping. Other equipment in a corrugating plant includes stand-alone die-cutters, die-cutters with print stations, and machines known as curtain coaters that apply a wax coating to fruit, vegetable, and meat containers. Box blanks requiring only simple, one-color printing and die-cutting can be run through a stand-alone die-cutter, print station, and curtain coater to produce water- or grease-resistant containers.