Jet Tools VBS-3612 operating instructions Gage, Pitch, Shape

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Gage

Use the standard gage (blade thickness) except when the increased thickness of the workpiece decreases accuracy and width cannot be increased to compensate.

Examples of heavy gage applications:

1.When radius cutting in thick materials.

2.When the maximum width usable on the machine still provides insufficient beam strength for the blade. (Beam strength is the blade’s resistance to compression caused by strong feeding or the type of material being cut).

Pitch

Pitch is measured in “teeth per inch” (T.P.I.) and can be constant or variable. Figure 23 shows blades with different pitches. A fine pitch (more teeth per inch) will cut slower but smoother. A coarse pitch (fewer teeth per inch) will cut rougher but faster.

As a rule of thumb, the thicker the workpiece, the coarser will be the blade pitch. If you have to cut a hard or very brittle material, you will probably want to use a blade with a finer pitch in order to get clean cuts.

Using a blade with too few teeth may cause vibration and a rough cut, while too many teeth may cause the gullets to fill with shavings and overheat the blade.

As a general rule, use a blade that will have no fewer than 6 and no more than 12 teeth in the workpiece at any given time.

The chart on page 23 will aid in determining pitch for a particular job.

Shape

Figure 24 shows common types of tooth shape. Tooth shape has an effect on cutting rate.

The Regular blade, sometimes called a “raker” blade, has evenly spaced teeth that are the same size as the gullets, and a 0-degree rake angle. This is a good general-purpose blade, and often works well with ferrous metals.

The Skip type has fewer teeth and larger gullets, providing the added chip clearance needed for cutting softer, nonferrous materials, as well as non-metallic applications such as wood, plastic, cork, and composition materials.

The Hook blade has larger teeth and gullets and a positive rake angle which permits better feed and chip removal. It is useful for both cast iron as well as hard, nonferrous alloys.

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Figure 23

Figure 24

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Contents Inch Metalworking Band Saw Warranty and Service More InformationTable of Contents Page Page Introduction Specifications Features and Terminology Contents of the Shipping Container UnpackingInstallation and Assembly FenceFeed Screw ShearExtension cords Volt, Three Phase OperationGrounding Instructions Adjustments Converting from 230 Volt to 460 Volt Three PhaseThree-Phase Test Run Blade Removal and InstallationBlade Tension Blade TrackingGuide Post Blade GuidesReplacing Drive Belts Squaring Work Table with BladeAuxiliary Table Blade Break-In Procedure Setting Blade SpeedBand Saw Operation Work Lamp BulbShearing Welder OperationEvaluating Cutting Efficiency Removing Teeth WeldingAnnealing Blade Selection WidthShape GagePitch Blade Breakage SetMaterial Maintenance Machine Part Lubricant FrequencySpeed and Pitch Chart Typical Band Saw Operations Troubleshooting Operating Problems Troubleshooting Mechanical and Electrical Problems Trouble Probable Cause Remedy Troubleshooting Welded Blade Inspection Troubleshooting Welder Mechanical Problems Replacement PartsIndex No. Part No Description Size Qty TS-0561021 TS-0051051 VBS3612-1174 TS-0267061 VBS-3612 Band Saw VBS-3612 Band Saw JWG34-601 PR-EV-6280 Welder, Shear and Work Lamp Assemblies Electrical Connections 3Ph, 230/460V SB1 Electrical Box Page WMH Tool Group