AUTOMATED LOADING OF COMPONENTS FOR DEEP-HOLE DRILLING PROCESSES

Most automatic machine tool tending systems involve standard plug-and-play equipment for robotically loading and unloading CNC lathes and machining centres. In an unusual application, Dutch firm Halter CNC Automation has supplied a special variant of its LoadAssistant robot cells that allows the similar automation of deep-hole drilling machines.

The advantages of the installation at Ott-Jakob Spanntechnik in Lengenwang, Germany, are described by the sales agent for Halter in Great Britain, 1st Machine Tool Accessories. The company advises that it is able to supply such special solutions in addition to the principal’s standard range of automated machine tending cells.

Ott-Jakob Spanntechnik is a manufacturer of manual and automatic tool clamping systems for machine tool spindles. Materials processed at its 7000 sq m factory are mainly high-alloy steels, plus to a lesser extent aluminium and non-ferrous metals.

Series production team leader Florian Hartmann says: “Four-fifths of our two-axis lathes are equipped with bar magazines and we’re always looking for opportunities to automate other machines on our shop floor.”

This policy has been extended to a TBT ML250 deep-hole drilling machine that produces the holes via which coolant will subsequently flow through the spindle. The dimensions of workpieces processed on the machine vary widely. Shafts are mainly from 20 to 50 mm in diameter and between 75 and 550 mm long, and almost any combination of these dimensions is possible.

Until recently, the machine was used in two-shift production where one employee, who was also busy in other areas of the factory, manually loaded the TBT ML250 with raw parts and removed the finished shafts. With cycle times ranging from three minutes to about half an hour, depending on the size of the workpiece, the operator needed to be more or less permanently in attendance, hence the desire to automate the machine.

“We have for some time been using standard LoadAssistant robot cells from Halter, a Universal Compact 12 and a Universal Premium 35, to feed a pair of CNC lathes,” explains Hartmann. “We continue to have a positive experience with these systems, so we asked the company for a solution to automate loading and unloading of our deep-hole drilling centre. This resulted in the supply of a LoadAssistant Universal Premium 35 with special features in terms of the design and flexibility of the cell, allowing us to load the machine with not one but four parts at a time.”

Programming of all movements and thus the entire robot kinematics has been modified and a workpiece storage system installed on the left hand side of the machine (at the front). The robot arm features a double-sided end effector with workpiece-specific gripper fingers that are adapted to the shaft diameters which require handling.

The robot cell entered service in March 2023. To provide component storage, it has a standard, 176-position grid plate able to hold shafts that are 20 to 35 mm in diameter and 75 to 250 mm long. In addition, Halter supplied an 88-position grid plate for shafts from 35 to 50 mm in diameter and up to 550 mm long.

Four shafts are transferred one by one from the grid plates to two buffer storage locations positioned immediately in front of the working area. To minimise machine idle time, Ott-Jakob Spanntechnik completes the process while the TBT deep-hole drilling machine is producing the previous four components. The purpose of the additional transfers is to reduce the distance parts subsequently have to travel when the TBT machine has stopped and loading and unloading is in progress.

When the drilling cycle finishes and the doors have opened, the robot uses its gripper to pick up the first new shaft, extract a finished component from the machining area, load the new workpiece that requires drilling, and deposit the machined component into one of the same two buffer storage locations. While swapping a new shaft for a deep-hole drilled component, the system checks the position of the part in the machine and, if necessary, measures the length of the shaft again via an integrated sensor to prevent a possible collision.

The unloading/loading procedure is repeated three more times in a continuous cycle, after which the buffer stations contain four finish-machined parts and four fresh shafts are in the machine for drilling. The drilled components are transferred by the robot, again in parallel with machining of the next batch of shafts, to the rear of the robot cell from where an operator removes them by hand. Replenishment of the grid plates with raw material at the front of the cell is similarly carried out manually.

Hartmann concludes: “Both we and Halter were well aware that we were entering new territory with this solution, so we started making optimisations as soon as production started and this is ongoing. The average cycle for loading the machine is currently about 3.5 minutes, but we’re working to reduce the time further. With the robot feeding the deep-hole drilling machine, the cell now produces components automatically over a single eight-hour shift and often runs an unattended shift as well, further raising productivity.”

For further information www.1mta.com

700+ robots for VW Spain

Robot manufacturer Kuka and Volkswagen have signed a framework agreement for the delivery of more than 700 robots in 2024 and over the coming two years.The robots, which includeKuka’s best-selling KR Quantec, will be installed at VW Navarra in Pamplona, Spain, where they will see service in body-in-white production. Kuka and VW have maintained a successful partnership in Pamplona for almost 30 years. “Kuka has been a strong and global partner to the automotive industry for decades,” statesPeter Mohnen, CEO of Kuka AG. “We are pleased to continue our trusting co-operation with Volkswagen.”

For further information www.kuka.com

Ready to boostinvestment?

Britain’s manufacturers could boost their investment by up to £10bn if they were to take advantage of the range of public and private financial options available to them, helping to raise the investment potential of the sector overall by up to a fifth and address the UK’s long-term productivity weakness. This is according to Make UK’s latest report – Finance: Opening Doors to Investment in Manufacturing – published in partnership with NatWest and Lombard. It also finds that 26% would increase their own investment by up to a fifth if access to finance was improved, while12% would increase their investment by up to half. 

For further information www.makeuk.org

Linear-guide cutting facility opens

European users of NSK’s linear guides can now take advantage of the company’s new cutting facility in the Netherlands. Based at NSK’s European Distribution Centre in Tilburg, the €1.6m plant will enhance service levels for customers in key European markets.Upon reaching full capacity, the ISO9001-accredited facility will achieve a production output of more than 1000 pieces per week.Although NSK Europe already has a linear guide cutting facility at its site in Newark, UK, the addition of Tilburg will help to optimise the company’s service level for these products across mainland Europe.

For further information www.nskeurope.com

Manufacturing Awards winners named

Business Awards UK has announced the winners of its 2024 Manufacturing Awards, recognising exceptional achievements and innovative contributions across the manufacturing sector nationwide. Best Manufacturer UK went to Milton Keynes based The Engineering Quest, a specialist in high-precision machined components. The company also won Best Family Business. Among other notable winners was Bristol Fabrications, which won the Fastest Growing Business Award. The company specialises in fabrication projects from design to installation.

For further information www.bit.ly/4aS6OYF