Mate Precision Tooling - Danobat

Special Assemblies from Mate Precision Tooling

Mate Precision Tooling delivers you a competitive advantage by providing solutions, tool designs and product support for your special application needs.

Special Assemblies from Mate Precision Tooling are designed with high performance features for extended service life in the most extreme operating conditions. Most assemblies include fully interchangeable components, which will minimize machine downtime and maximize productivity.

You can e-mail details of your special applications needs, including graphic or CAD files, to quotes@mate.com

You can access your special assembly drawing files, 24 hours a day, 7 days a week, by registering with our exclusive my.mate.com service.

Card Guide	Cluster
Countersink	Emboss—Beaded
Emboss—Cold Forged	Emboss—Formed
Extrusion—Tapping	Hinge
Knockout	Louver
Lance and Form	Stamp—Alpha-Numeric
Threadform	V-Line Inscription
Rollerball® - New!	Sheetmarker® - New!

Click here to download our forming tool guide

Cluster

Use: To produce multiple holes with minimal hits.

Typical Application:

Material thickness from 0.020(0.50) to 0.157(4.00).
Other constraints dependent upon station size, punch size and shape and press tonnage capacity.

Comments:

For greater hole uniformity and flatter sheets, spread the punches to avoid punching adjacent holes in the same hit.
Complete the desired pattern with the technique known as bridge hitting.
Do not re-punch through previously punched holes to complete a pattern, single hit tool may be necessary.

Card Guide

Use: As a retainer for printed circuit boards.

Typical Application:

Material thickness from 0.040(1.00) to 0.078(2.00).
Maximum recommended top-to-top height 0.125(3.20).

Comments:

Length of the card guide is dependent upon station size and machine tonnage.
Also available as a continuous type form to increase productivity.

Countersink

Use: Allows screw head to reside flush or below the surface of the material.

Typical Application:

Material thickness from 0.048(1.22) to 0.250(6.35), dependent upon press tonnage capacity.

Comments:

The shoulder style (dedicated) is generally ordered for one material thickness and screw size.
The shoulder style coins the surrounding area producing a clean flat countersink with minimal burring.

Emboss—Beaded

Use: As a stiffener to add rigidity to sheet metal panels.

Typical Application:

Material thickness from 0.027(0.70) to 0.250(6.35), dependent upon press tonnage capacity.

Comments:

Increments between hits are determined by the cosmetic requirements for the finished part. Smaller increments result in better appearance.
To minimize the sheet distortion that results from forming metal, the form height should be as low as possible.

Emboss—Cold Forged

Use: To produce a logo or design on a part.

Typical Application:

To minimize the sheet distortion that results from forming metal, the form height should be as low as possible.
Best results in material thickness from 0.040(1.00) to 0.078(2.00).
Maximum size dependent on the tooling style, station size and press tonnage capacity.

Comments:

An exact drawing, CAD file or sample of logo is required in order to produce this type of assembly.

Emboss—Formed

Use: Provides a recess or a protrusion.

Typical Application:

Material thickness from 0.027(0.70) to 0.250(6.35), dependent upon press tonnage capacity.

Comments:

Best results are attained when the side wall angle is 45° or less.
Optimum form height is 3 times the material thickness or less.

Extrusion—Tapping

Use: Threading for screws and increased bearing area for tubes, etc.

Typical Application:

Material thickness from 0.031(0.80) to 0.106(2.70).
Overall Height.2x to 2.5x material thickness.
Diameter.0.374(9.50) (M-10).

Comments:

Buy additional inverted dies to accommodate alternate material thicknesses.
Maximum diameter can be increased by using an alternative design.

Hinge

Use: To create hinge knuckles as integral elements on sheet metal components.

Typical Application:

The range of this application is dependent on a combination of the material thickness, pin diameter and feed gap of the press.

Comments:

An integral hinge knuckle on a component eliminates the costly process of purchasing and assembling separate hinges.

Knockout

Use: Allows optional pathway for electrical cable.

Typical Application:

Material thickness from 0.024(0.60) to 0.118(3.00).
Maximum size dependent upon material type, thickness and press tonnage capacity.

Comments:

The tool can be used with other material thickness within a range of + or - 0.016(0.40) from design thickness.
Maintain minimum of 0.236(6.00) difference between diameters used for knockout.

Louver

Use: To provide air flow or ventilation.

Typical Application:

Material thickness from 0.028(0.70) to 0.106(2.70).
Maximum recommended top-to-top height is 0.255(6.50).

Comments:

One tool cuts the sheet and produces the form in the same operation.
The tool is designed for a specific material thickness.

Lance and Form

Use: For airflow, decoration, card guides, location markers, shear tabs, wire harnesses or clip attachments.

Typical Application:

Material thickness from 0.020(0.50) thick to 0.118(3.00).
Maximum recommended top-to-top height is 0.250(6.40).
Other limitations include material type, thickness, station size and press tonnage capacity.

Comments:

The inclusion of a 5° draft angle is recommended to assure reliable operation.
Also See: Snaplock

Stamp—Alpha-Numeric

Use: To provide indelible marking of alpha-numeric characters on the top or bottom of the sheet. Example; for part numbers.

Typical Application:

Material thickness from 0.032(0.80) up to machine capacity.
Characters available in 4 popular sizes. See table.

Comments:

Each individual character can be changed easily.

Threadform

Use: To provide a form to accept a sheet metal screw (button head).

Typical Application:

Material thickness from 0.020(0.50) to 0.048(1.20).
Size is dependent upon screw size selected.
Thicker material requires a countersink operation or thinning prior to threadforming.

Comments:

Tool can be designed to suit either cut thread or rolled thread. You will need to specify thread type when ordering.

V-Line Inscription

Use: To produce logos, messages or symbols.

Typical Application:

Material thickness from 0.032(0.80) up to machine capacity.
Maximum size is dependent on station size and size of symbols and characters and press tonnage capacity.

Comments:

V-Line Stamping.renders the image with a thin, sharp line stamped into the surface.
An exact drawing, CAD file or sample of logo is required in order to produce this type of assembly.

Rollerball®

Use: The Rollerball® is an exciting new tool designed by Mate Precision Tooling to take advantage of the extended programming capabilities of hydraulic and other punch presses capable of operating in the X and Y axis with the ram down. The Rollerball® gives you the benefit of making forms not possible with single hit forming tools.

Typical Application:

Maximum workable material thickness is 0.105(2.70) mild steel.

Comments:

The press must be capable of holding the ram down while the sheet is moved on the X or Y axis.

Sheetmarker®

Use: For markings or etchings on the surface of sheet metal. The tool uses a diamond pointed insert in a spring loaded holder to create the marking.

Typical Application:

The Sheetmarker® Tool can be used on all material types and thickness.

Comments:

A wide variety of results can be produced, ranging from very light etching to fairly deep grooves in the sheet.
Variations are achieved with a combination of three spring pressures and insert point angles.