Category: Machining Concepts

KURT CarvLock® CTHDL Manual Cluster Towers


Kurt® Workholding’s CarvLock® CTHDL manual cluster towers are designed for use with mid-size and larger CNC machining centers, including horizontal and vertical machining centers with a fourth axis and/or indexable tables. These manually operated, eight station vise towers are capable of producing up to 7,460 lbs. of clamping force at just 70 ft-lbs. of torque. They provide exceptional workpiece immobility while dampening cutter-induced vibration. Ductile iron column construction ensures strength, rigidity, and long term accuracy.

A self-adjusting holding block on either the front jaw or back jaw allows for easy clamping of same or differently-sized parts. To provide faster operation, an adjustable pre-load feature reduces the number of handle turns required for opening and closing the clamping stations.

With eighteen CTHDL models available, with 4” or 6” jaws, it’s easy to find the right manual cluster tower for your unique workholding needs. Order the CarvLock® CTHDL cluster tower your application requires, or contact Kurt Workholding for more information.

See individual product listings for additional information and specifications. All models are protected by Kurt’s Lifetime Iron Clad Warranty.

 

Product Information:

Kurt® Workholding’s CarvLock® CTHDL Manual Cluster Towers

 

Horn at AMB 2018!

 

HORN was on display at AMB 2018 with a three-storey stand (Hall 1, Stand 1J18) presenting a host of innovations and product enhancements. The key highlights of JET-Whirling with Internal Cooling, Speed-Forming and Polygon Turning were presented at the AMB.

Other major features of the stand was the opportunity to present professional and expert advice on the HORN product portfolio, and the chance to exchange ideas on the latest topics and trends.

Please visit Horn for more info on the latest products released at AMB 2018

 

 

 

TAV Digital, the new standard of Variable Angle Heads

New standard on Variable Angle Heads by O.M.G.

TAV series is now equipped with a display to check spindle inclination.  Easy to use, high accuracy system, compact design allow Users to set Variable Angle Head tool inclination directly on the machine to perform requested machining operation.

Now available on three Variable Angle Heads main versions: TAV10, TAV13 and TAV20.

The development of this solution will be sooner extended to all models of Angle Heads TAV series.

Please contact us for more detailed information.

 

 

 

MAPAL: Machining of Valve Seat and Valve Guide

Modern precision tool provides more production capacity with lower costs at the same time on the machining of Valve Seat and Valve Guide

Machining Task
The machining of the valve seat and valve guide is one of the primary cost drivers during the machining of cylinder heads. Exact angles at the sealing chamfers on the valve seat rings and close tolerances on the concentricity between valve seat and valve guide must be met. In addition to the high geometric requirements, the increasing requirements on the high-temperature stability of the valve seat rings mean that in general very hard and difficult to machine sintered materials are used.

Challenge
The tool concept that meets these requirements while reducing costs at the same time must make use of the most suitable cutting material and have corresponding precision. Cutting material and insert geometry are responsible for the tool life and make a significant contribution to the costs per workpiece. However, the overall design of the tool is also important.

Our Solution

The solution for these tasks is a MAPAL tool with indexable blades and guide pads. It guarantees a qualitatively flawless result due to the high precision of the inserts, the insert seats and the connection in relation to the valve guide. The HX inserts for machining the chamfers on the valve seat ring are of a hexagonal shape and have six cutting edges. Due to a clever arrangement, these inserts can even be used several times for the different chamfers. The precision insert seat in which the HX inserts are mounted makes it possible to change the inserts without any setting process, as all the angles match exactly.

Conversely, all the tools previously used for this machining task require to some extent time-consuming setting work on an insert change. Also it was normally necessary to set the radial run-out on the replacement of the valve guide reamers mounted in the base tool. In the new MAPAL concept the tool for machining the valve guide is now connected using the proven HFS connection. The tool is changed with a radial run-out accuracy of < 5 µm by simply screwing in or unscrewing. This very stable connection also makes it possible to increase the feed rate.

MAPAL Effect
The comparison of the conventional system with the MAPAL solution produces a very clear result. The much higher feed rate and the related cycle time reduction result in a significant improvement in the production capacity, or even in less investment in machinery for new projects. As no setting work is required and it is only necessary to change inserts and tools, there are also significant savings in the area of the non-productive times. However the most important effect on the costs per workpiece is the inserts for machining the valve seat rings. Due to the stable mounting, the right PcBN grade and the ideal cutting edge geometry, the tool lives are increased by five to ten times compared to other systems.

Cycle time reduction due to much higher feed rate
Setting no longer necessary
Five to ten times higher tool lives