Work Supports
Frequently Asked Questions
Why do I need to use Work Supports? The basics of 3-2-1 of fixture building require that three points define one plane of part location. When machining, a part may require additional support beyond the three basic points of a plane. A floating location support (work support) is an easy solution. Install a work support anywhere a “screw jack” can be used. It adjusts faster without distortion and is not dependent on operator “feel.” A work support will provide solid adjustable support for parts ranging from fragile circuit boards to massive airplane wing spars. They provide “automatic” adjustment and lock-up giving repeatable, predictable results without the risk of “forgetting” a clamp or the time of manually adjusted alternatives. What is required to use Work Supports? Work Supports will work in most applications where part distortion, chatter, ringing or poor surface finish conditions are present. They can eliminate or decrease most of the problems caused by part movement during machining. All you need is an application, space to insert the support, a power supply and plumbing. Work Supports improve part quality while reducing scrap and re-work. They are often used on fixtures where parts are manually clamped but require additional support. After the work support plunger is advanced, hydraulic pressure is used to “squeeze” the sleeve against the plunger, “locking” it securely against the part. It then becomes a solid support holding the part with the capacity indicated on the appropriate graph for the work support type. Can I use Work Supports without other hydraulic clamps? Yes, hydraulic Work Supports are often used alongside manual clamps. Work Supports reduce dependence on “operator touch,” speed operations by locking multiple components with a single adjustment and speed load time dramatically even when used with manual clamps that secure the part. In fact, one of Vektek’s most effective applications was one where the part was bolted in place over a tower equipped with several Work Supports. They supported the inside of a case while the outside was being machined. Our Work Supports reduced the part loading time from over five hours to just under one hour in this application.
support “deflects” back closer to the “no load, no lock zero.” As the support approaches full capacity it may deflect below the “no load, no lock zero” slightly. Other factors which may be more important include: the surface finish on the part where the work support contacts it, the shape and contact area of the end effector, the actual cutter or load force applied to the part and the repeatability from part to part or lot to lot. For this reason, Vektek has chosen to publish only repeatability data on our work supports. Normally yes, as long as you are not using a heavy end effector or unusually side loading your support, the physical orientation should not affect performance. If you have a question about a specific application, please give us a call. Can I lay my work support on its side? I have an interrupted cut that is going to take place over the top of a work support. The forces involved are transmitted directly down on the support. The cutter is a large milling cutter and the cut is interrupted because I am sawing through webs on a cast part. How do I size the work support for this application? You are correct, the impact of the re-entry of the cutter teeth to the next web of your part will create an interruption and may cause an impact beyond the normal horsepower, depth of cut and tooth loading formulae. In this case, you should plan to allow no less than 2X more capacity than necessary on the work support. Impact loading from interrupted cuts can require increasing capacity beyond this safety measure, hence up to 5:1 times calculated force in the event of interrupted cuts may be appropriate. Keep in mind that if you are tapping with a ball-peen hammer the upsizing is less than if you are impact loading with a full striking blow, but often both create forces well beyond the size of the hammer. Do I need to use a torque wrench and socket when installing cartridge Work Supports? Yes, a torque wrench and a 6 point socket is required. If you use an open end, adjustable or box end wrench you increase the chances of damaging the hex, roundness of the support sleeve or damaging the seals causing leakage between the sleeve and body. Please use an appropriate socket, torque wrench and care when installing cartridge Work Supports.
Explain the difference in the three advance types and why I might want to use one over the other? Spring advance is typically used when the part is heavy enough to depress the spring-loaded plungers. This type of work support can be used in most applications. Air advance is normally used when a part is very light, fragile, or when heavy contamination is present. Lightweight parts may require clamping before the supports can be advanced. Fine-tune the work support to touch the part lightly without distorting or unseating it before the support locks. When heavy contamination (fines, heavy flood coolant or corrosives) is present, use of a full time “air spring” continuously purges the sleeve/ plunger contact area to keep it clear. Fluid advance is recommended to avoid the introduction of a second power medium or when the plunger must be retracted to allow for part loading. This is significant when pelletizing fixtures where quick connectors must be connected to add an air control circuit to the fixture. Fluid advance supports should not be used if advance force control is required. What is the “breather port” and can I plug it or use it for my hydraulic connection? All Spring Advance Work Supports require the exchange of air to and from the atmosphere. Air Advance Work Supports have no breather, but use a continuous air pressure to advance the plunger into position. Fluid Advance Work Supports have an internally vented plunger that gives trapped air between the hydraulic advance piston and the support plunger a place to escape. What type of part will typically need Work Supports? Are there any I should avoid? Parts with thin webs, unusual shapes or unsupported structures that must be held within a plane are likely candidates for Work Supports. There are no parts to be avoided. Cast iron and aluminum parts produce large quantities of fines that can infiltrate cavities and reduce work support life (air advance should be considered for both). What about deflection? Deflection is a difficult topic to discuss relative to work supports. Let’s start with a support measured in its free state with “no load, not locked.” This will establish a “no load, no lock zero” point. When a support is pressurized, there is a small amount of growth. As it is loaded the
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