Flexible Office Design and Renovation

When we approached our electrician and said “we are going to rip all of the wires out of our walls” he replied like you would expect: are you crazy?   With constant continuous improvement activities, we need the flexibility to move around offices, computers, and machines without having to pull wires through walls and figure out how to patch old holes.  It was a little hard to tear apart walls that are only 6 years old but we decided to plan it out and do it anyway.  

Our solution to have a more flexible office (and wiring) was to build overhead cable trays.  The trays form a halo around each room and all route from the main servers to each area of the plant.  Along the way we also made some significant improvements to our ventilation system (positive pressure with an HRV, full zoning of every room, and increased filtration capacity) and found ways to make the offices easier to clean.

CAUTION TO READERS: many terrible *before* pictures to follow and they aren’t pretty! 

 

 

Step 1: Move everyone out and share offices for a few months.  The walls are dark grey with red accents, the ceiling tile is starting to turn brown, and the lights are using way too much power.

Step 1: Move everyone out and share offices for a few months.  The walls are dark grey with red accents, the ceiling tile is starting to turn brown, and the lights are using way too much power.

Step 2: Rip out wires, run temporary wires, and say “what have we done”!  Approximately 150 wires had to be taken out and re-run only to be later run again through the cable tray.  

Step 2: Rip out wires, run temporary wires, and say “what have we done”!  Approximately 150 wires had to be taken out and re-run only to be later run again through the cable tray.  

Step 3: take down rest of ceiling tile and finish muddling and taping the ceiling. 

Step 3: take down rest of ceiling tile and finish muddling and taping the ceiling. 

After some painting and new flooring we are part way there.  Still tough working around all of the mess, wires, and construction noises but we have the greatest people who support progress at any cost!   An extra improvement for our people was to switch to up/down desks as seen in this photo.

After some painting and new flooring we are part way there.  Still tough working around all of the mess, wires, and construction noises but we have the greatest people who support progress at any cost!   An extra improvement for our people was to switch to up/down desks as seen in this photo.

Done!  The hightlights of this picture are: the aluminum cable tray, the LED lights, the light sensor mounted to the bottom of the tray, some new personal storage lockers, lighter grey paint, and exposed ceiling tiles.   This renovation also added space for 3 extra people in the same floor plan.

Done!  The hightlights of this picture are: the aluminum cable tray, the LED lights, the light sensor mounted to the bottom of the tray, some new personal storage lockers, lighter grey paint, and exposed ceiling tiles.   This renovation also added space for 3 extra people in the same floor plan.

The entire cable tray was designed in-house, built, and installed.   

The entire cable tray was designed in-house, built, and installed.   

IMAGE.JPG

The wire drops from the tray are surface mounted and have a subtle industrial look.

New Machine Announcement - 5 axis milling

This week we welcomed a new member to the Lean Machine family, a brand new CR Onsrud 5 axis Gantry mill.  This incredible machine will allow us to process aluminum extrusions from all sides in minimal setups.

Put in place and unwrapped the mill is considerably taller than our other machines and the machine fits perfectly in it's new home.  This machine features a Fanuc control for X, Y, Z, C, A axis.  The gantry is extremely heavy and rigid and features a water cooled spindle. 

Put in place and unwrapped the mill is considerably taller than our other machines and the machine fits perfectly in it's new home.  This machine features a Fanuc control for X, Y, Z, C, A axis.  The gantry is extremely heavy and rigid and features a water cooled spindle. 

FullSizeRender.jpg

Shallow cuts that are almost impossible on a saw (and inaccurate on a miter saw) are easily performed.  Notice the Kurt Vises mounted to a linear rail for flexability in setup.

FullSizeRender.jpg

Some cleanup being done on the bottom side of the tube.  The Albrecht tool holder has a super long reach with tight runout for optimum balancing and tool life.

Part count reduction

Flipstep Bracket3.png

Limiting the number of parts required to produce a design saves time, space, confusion, and alleviates jigging concerns.    The upright components of this steel weldment would normally be fabricated from 4 miter cut tubes (8 parts per assembly) which would require a lot of careful alignment and handling of many parts.

Rather than fabricating parts in that way, we machine holes and reliefs for bends which brings the 8 parts down to 2.  Putting a steel tube across a CNC mill also ensures quality of cut squareness, length, and hole position.  Our new bent tube also reduces welding and grinding by 6” (a 25% reduction).

Then, fold it up!

Eat your wheaties.

Eat your wheaties.


When a jig is required for final welding, the laser and brake can make quick work of that.   This jig features easily interchangeable pieces and bolt together construction.

Flipstep Bracket With Jig.png

Heavy Router Machining

Our Onsrud CNC Router machines are great at cutting thin sheet, but their heavy build also makes them ideal for machining thicker pieces of aluminum. An advantage of using the router table is that it does not have the machining travel limits inherent in a more typical Vertical Milling Center, such as our HAAS VF4 machine.

This means we are able to machine large parts in one operation, eliminating errors caused by part sensing and greatly reducing setup times.  Below is video showing one of our Onsrud routers cutting a new welding jig for our shop out of a ¾” thick sheet of 6061-T6 Aluminum. After deburring, the part is ready to have components installed and be put into use as a robotic welding jig!

IMG_20171215_154238.jpg

Mill and Turn all in one

Our awesome new Okuma lathe isn't just a lathe! This machine can turn round parts but can also mill perpendicular and parallel to the part.  Here is a video of us making weld flanges for piping assemblies.  The entire part is done in one process instead of turning the part in a lathe and then sending to a mill to put the bolt pattern in. 

The CAD drawing for the part shows the blind, tapped holes. 

The CAD drawing for the part shows the blind, tapped holes. 

 

 

Automated feed, turning, threading

Automated feed, turning, threading

This post is a continuation of our previous post: http://www.leanmachinecnc.com/news/2016/12/27/lathe-machining-cost-reduction

Whenever possible, we program our parts on several different machines so they can all be run simultaneously to shorten overall cycle times and give us redundancy of resources.

With our Okuma dual spindle lathe and Autodesk HSM we are able to automate parts that have several operations.  The programming and setup time are intense but the result is a part that can run in a fraction of the time with very little human interaction.  In this example, we took a part that required several hours of total human attention to a 45 minute unmanned operation.

Here is the Inventor drawing of the part.  It's a small brass adapter with different threads on either end.

Moving from CAD to CAM seamlessly is the key to our engineering process.  If we change a size in the 3D model the tool path will automatically update.  Below is a screenshot of the HSM programming for this part.

Like our previous gang-tool setup this turning strategy uses Iscar's latest technology Pentacut.

The Iscar pentacut uses a 5 sided insert.  The insert is a strong design put into a rigid holder and has a chip forming profile which makes for accurate parts and a great finish.

The Iscar pentacut uses a 5 sided insert.  The insert is a strong design put into a rigid holder and has a chip forming profile which makes for accurate parts and a great finish.

The video below is a run through of the cycle.  What the video doesn't show is that the main spindle will bar feed the secondary spindle so we can run a longer bar without interruption.

Below is the finished part ready to ship!

New turning center!

We have a commitment to staying at the leading edge of manufacturing technology.  Our newest addition is at the forefront of CNC turning.  The Okuma Genos 300-MW is a full CNC lathe with tool changing, live tooling for milling, and a second spindle to finish the backside of a part all in one operation.

Here is a view inside the machine.  On the left is the main 10" spindle, center is the tool turret, and the right is a 7" sub-spindle.

Here is a view inside the machine.  On the left is the main 10" spindle, center is the tool turret, and the right is a 7" sub-spindle.

The 2nd day into training and we are already getting good parts off!  These parts previously would have required a flip in a conventional machine to finish the backside edge.  Now the operator can open the door to a finished part.

The 2nd day into training and we are already getting good parts off!  These parts previously would have required a flip in a conventional machine to finish the backside edge.  Now the operator can open the door to a finished part.