Corrugated cardboard scoring tool

Scoring rings are manufactured from high-grade tool steel and are fully heat-treated for longevity. In many cases, for applications requiring a wider profile than the typical ring supports, a design can be created that allow for the wider profile. With over 1, scoring profiles on the books, expertise in scoring has been a trademark of Sauer System since the beginning.

Examples of scoring profiles include:. Cutting systems Cutting systems Digital cutting systems Registration methods Material handling Modules and tools Accessories Digital cutting.

Applications Industry solutions. What industry are you in? Which material do you want to cut? Shop en de it nl es fr cn. Tools for processing cardboard. Sorry, no suitable results found for these filters. Creasing Tool Type 2 Universal creasing tool for folding carton, polypropylene, twin wall, etc.

Materials Twin-wall sheets Cardboard. Electric Oscillating Tool Cutting tool with high oscillation frequency for soft to medium-density materials. Depending on application, available with 0. Precise depth control Adjustment gauge included Processes cardboard and polymer materials up to 5 mm thick Compatible with G3, S3, D3. Materials Cardboard. Perforating Tool Type 1 Ideal tool for creating precise perforations.

Materials Cardboard Corrugated cardboard. Pneumatic Oscillating Tool - POT The Pneumatic Oscillating Tool is an air-driven tool particularly well suited for cutting tough, dense materials but can also handle soft, thicker ones. High-performance cutting tool with 8 mm stroke Powerful, low-maintenance pneumatic tool Two versions available for 0. Press Cutting Tool Cutting and compressing corrugated board in one step. Press Cutting Tool - PCT High processing speeds and high-quality results equal to die cutting: The PCT tool cuts corrugated cardboard up to 7 mm thick and simultaneously compresses the material with a special glide shoe.

Materials Corrugated cardboard. Scoring Cutting Tool Combination tool for scoring and cutting cardboard and coating blankets of up to 5 mm thick.

Materials Rubber Cardboard. The apparatus 1 is made up primarily of a handle body 2, a slotting knife 3, a slitting knife 4, and a scoring wheel 5. Still referring to FIG. The slot knife 3 is extended and retracted by locking nut 16 and slot 14 as well as a built-in cavity not shown in FIG.

The slit knife 4 is extended and retracted by locking nut 17 and slot 15 as well as cavity The slit knife 4, which includes a single blade with keen edge 20, is allowed to slide in and out of cavity 21 via locking nut 17 and slot Finger grips 24 are located at the bottom portion of the apparatus 1 as well as a thumb grip 23 located at the upper region adjacent to the slot knife 3. It is important that a person have a good grip on the apparatus 1 during operation, otherwise, the knives 3 and 4 could possibly cut a worker if the handle 2 were to slip out of his or her hands.

At the upper corner portion of the apparatus 1 is a scoring wheel 5 having a dull edge 18 around its perimeter. The scoring wheel is partially embedded into the handle body 2 via slot Also, the scoring wheel 5 is allowed to rotated on an axis via bolt It should be noted that the scoring wheel 5 could also be located at a variety of other locations on the handle body 2.

Unlike the slot knife 3 and slit knife 4, the scoring wheel 5 has been chosen not to be retractable because the dull edge 18 does not pose a threat of injury to the worker while being exposed. In FIG. Normally, the separation distance between blades 6 and 7 is about a quarter of an inch.

This distance allows for the corrugated paper boards to fold easily at the corners when making boxes requiring high degree folds. Note, the quarter inch separation distance will suffice for a variety of thicknesses of corrugated paper boards and still allow for easy high degree folds.

However, as a general rule, the thicker the corrugated paper boards become, the greater the distance between the first and second slot blades should be. Each of the blades 6, 7, and 10 have keen edges 8, 9, and 11 respectively at the bottom portion of the blades. At the front region of the slot knife 3 are three sharp points 12 and 13 that are used to first be inserted into the paperboard boxes at site The sharp points 12 and 13 are inserted into the paperboards until the entire keen edge 11 of knife 10 has cut into the paperboard.

The blade 3 is then pulled along the score line 31 until it reaches the end. Referring to FIG. Next, the knife 3 is then pulled in the direction in which the slot 30 is to be made. The created slot 30 will have a width equal to the distance the blades 6 and 7 are separated. To create a score line 31, a straight edge device is place along the location in which the score line is to be created. Next, the scoring wheel 5 is then pressed against the paperboard and rolled along side the straight edge device thereby creating the score line Slots 26 and 27 allow parallel blades 6 and 7 to retract into and be concealed by handle 2 and slot 28 allows the upper portion of the knife 3 to slide therein.

Cavity 29 is shown embedded a given distance into the handle 2 such that when the knife 3 is fully retracted, the sharp point 13 and keen edge 11 of blade 10 is safely tucked away from the worker's hands. Accordingly, a very unique, attractive, and convenient apparatus is provided for slotting, slitting, and scoring lines on corrugated paperboards for purposes of creating cardboard boxes and the like.

Since minor changes and modifications varied to fit particular operating requirements and environments will be understood by those skilled in the art, the invention is not considered limited to the specific examples chosen for purposes of illustration, and includes all changes and modifications which do not constitute a departure from the true spirit and scope of this invention as claimed in the following claims and reasonable equivalents to the claimed elements.