I have recently received many emails from around the world for more details on the various attachments and advice on owning an Emco FB2. While a lot of my attachments have appeared in print, there are some who have never read these articles.

Thus I thought it would be a good idea to get a catalogue of some of the quirks, problems and attachments listed somewhere.

One thing that needs to be sorted is the confusion about the FB2, Several adverts seen over the years list the 4 Speed "Mentor Mill" with its grease filled milling head as an FB2, which incidentally has a 6 speed Oil filled milling head and replaced the Mentor Mill. The number of speeds is the dead give away, as is the integral motor of the Mentor Mill, which in my experience were always Hammerite Blue, or Green.

One recurring quirk or problem with the FB2 is that of Oil leakage from the Milling head. Many who have purchased a used machine automatically think it is due to a failed Oil Seal or O-ring. Of the latter there are 5 on the FB2, one large one on the Quill and two each on the shafts of the Speed change levers.

Two running seals made by INA are fitted, one to the top cover and one is recessed within the Quill assembly.

In the 34 years I have owned these machines I have yet to have any of these seals fail, despite near constant usage.

By far the biggest culprit for oil leakage is pressurisation of the gearbox. I first noticed this when one morning after receiving the above mill. A small pool of oil appeared over night on the milling table. As the machine was only a few days old it could not be a failed seal.

Leaving the filler plug slightly open cured this leak. Leaving this plug open to the atmosphere allowed the pressure inside to escape. Not being happy with the open filler I modified the standard Emco plug, then designed and fitted the plug shown below, which is basically a snifter valve.

Since fitting this valve I have not suffered any further oil leaks on either of my machines. There are however some who doubt that the head does pressurise. To this end I recently carried out a simple experiment using the finger from a Nitrile glove. This is slipped over a modified sealing washer.

The next photograph was taken 1 minute later after running light at 2000 RPM

Leaving the "indicator" in-situ while carrying on working saw the finger disappear to the far corner of the workshop. Those who have not successfully tied up a Party Balloon will know the score here.

I intend to add to this post from time to time.

Regards

Gray,

The only Achilles heel with the FB2 from what I have read about is the Tufnol Gear (Gear 47 in the parts List), which some people have had some teeth stripped off.

I have seen these gears up for auction with the asking price double what a new spare part costs. As many of the parts are no longer being made by the factory. It is just a matter of time before these too will no longer be available. The last time I took the gearbox apart I took the measurements of the gear and have made a drawing.

It is interesting to note that the gear is a DP, and not a Module form. Having originated in Austria I did assume the latter, until the sums just did not add up for a 45 Tooth Helical gear.

One of the reasons I think these gears fail is due to owners using the lowest gear to lock the spindle to remove any Morse tooling. If one tries to turn the spindle backwards by hand in the lower range there is a feeling that something is binding, just prior to the gearbox locking up. I think it is the Tufnol gear crowding the smaller steel motor pinion.

Removing a stubborn Morse taper using this method is going to put things under stress at one point on the Tufnol gear. Unlike when the machine is running and several of the teeth are sharing the load.

To make the changing of tooling much easier and to remove any risk of premature breakage. I designed and fitted the spindle lock below. This makes locking the spindle dead easy and with no risk of damage to any part of the gearbox.

Over the coming months I hope to try cutting a new 45T gear by simply gashing at 8 degrees. It will not be a true helix but given the gear is 12 mm wide and the Lead is well over a metre, I don't think it will matter. It is certainly worth a try and if it works I shall have a spare to hand.

Regards

Gray,

Hi Jim,

Please find below the drawing of the Breather/Snifter Valve. I am not familiar with the Rishton as regards the filler plug thread details so you may need to check this. The 8 mm counterbore is there to stop oil that makes on the face of the standard plug making its way out of the machine. Something I learnt with the modified Std Emco plug.

To size the thread I used a micrometer over 3 drill shanks on the original plug and made my new plug to that dimension. 

As regards the tooling getting stuck. It may be better if I detail what I do and how the FB2 is configured.

The Top of the Spindle is threaded M18x1. Onto this is threaded a Cap Nut, which accepts the head of the M10 Capscrew drawbar. This cap nut is locked onto the spindle using a 17 A/F spanner, this does not need to be excessively tight. I have introduce a washer above the the head of the Capscrew to limit how far I have to turn the Allen Key to undo the drawbar, before it contacts the cap nut. Plus this washer introduces another face for the capscrew to slide over, rather than directly on the cap nut itself. An EP grease is good at this point.

I keep on the shelf behind the mill a clean lint free wipe, every tool change the new piece of tooling gets a wipe. The Morse Socket gets a clean about every 6 months with Isopropyl and another wipe.

The dry surfaces of the Morse taper should be enough to hold that item of tooling during use. The drawbar is there merely to stop the tooling coming out during use from cutting forces, Helix on an endmill or slot drill, etc. I have a long series 8 mm A/F Allen Key and this is used to tighten the drawbar, but the pressure on the Allen Key is the Second Finger of my Rt Hand, nothing more.

A quarter of a turn with the Allen Key is all that is required to undo and remove the tooling. Occasionally my Shell Mill holder will turn slightly under heavy cutting and tighten itself up further, but the long series Allen Key undoes the cutter with a sharp crack.

I hope this helps,

Regards

Gray.

Hi Derek,

You are not alone with regards to not thinking it is due to positive internal pressure. Some have gone to extremes to disprove what the rubber glove finger has proved. The bottom line is I have no oil leaks and my machine is 24 years old this year.

Quite a few of the things I have done for the FB2 are shown in my Album, I really ought to get a list together, so you may need to bear with me on that.

Regards

Gray,

Edited By Graham Meek on 24/07/2020 15:27:29

Hi Joe,

Thanks for the kind words, I am taken by your impressive line up. I particularly like the CNC conversion this looks to have been well thought out.

There are times when I wished I had retained my last Green FB2. The current machine with the control panel to the front of the machine means the operator is stood further away from the machine. This is not good for my posture and I am also constantly leaning on the E-Stop button, so far it has always happened when the machine is no running.

This would be my only criticism of my current machine.

Regards

Gray,

Thanks Mark for adding your latest FB2 enhancement, also for giving me a reminder. I must get on and gather up some more items for you and this post.

Regards

Gray,

An item I have had on trial for a while is a set of Adjustable Stops for the Emco Rotary Table. These are in-valuable when two radii have to meet, or intersect. As the Stop takes away any chance of an over-run with the table, or turning the handle in the wrong direction.

I was using this today on the Main Support for the Lathe Tool Honing machine I am building and described on a separate post.

Also in use is something I made over 30 years ago, and shown above the graduations in the next photograph. It is a simple stepped and slotted Hold-out Washer.

This sits beneath the indexing pin handle on the Rotary Table, there-by keeping the pin out of engagement with the Dividing Plate. This is a real boon when circular milling. It takes minutes to make but saves hours of frustration.

Also in the shot is my revised X-Axis Stop and move-able cursor holder. More on that another time.

Regards

Gray,

Edited By Graham Meek on 31/07/2020 15:18:48

Hi Jerry,

I understand the confusion with the Emco Rotary Table, given the Manual only describes an indexing function. As far as I was concerned the attachment was both from the start of owning Emco products. It would have been better if Emco had chosen a 60:1 ratio as regards using the attachment as a Rotary Table. The 40:1 ratio is a bit fast for circular milling but you get used to it, although somewhere in my drawing files I have a 60:1 worm and wheel conversion drawn up.

I used the attachment as both Dividing Head and Rotary Table until I had a chance to design my own Dividing Head.

This is a marriage of GHT's Versatile Head, the Emco Rotary Table, the Emco machine Vice swivel base and a bit of Meekising.

As regards the end float on the Worm Shaft. In the normal Emco design all float is taken up by a special Bellvue Washer with a cut-out in it to clear the locking screw of the sector arms on the indexing plates. This serves two functions in that it provides friction to make sure the sector arms stay put, but also to take up the play in the worm shaft bearing. This is fine for indexing, but when it comes to circular milling it has an Achilles Heel. Provided the cutter rotation and rotary motion of the table are in sink, everything is fine. If however the rotary motion is using the Bellvue washer as its resistance to the cutting forces things can get a little hairy with a tendency for the cutter to snatch.

To this end I have done away with the Bellvue washer arrangement and fitted a special spacer to take up the backlash. I use the same arrangement on my Dividing head, and feel I had better take some photographs of that. One photograph saves a thousand words, the special spacer can just be made out in the last photograph of my last post.

As regards the depthing of the worm in the worm wheel. In the M8 Tee Bolt slot for holding the Rotary Table down to the cross-slide or milling table there is a Slotted Grub Screw that acts as a stop. This is screwed in or out to get the desired adjustment, but you will need just a little play.

Hope this helps,

Regards

Gray,

Edited By Graham Meek on 01/08/2020 11:29:12

Hi Jerry,

I think given the number of machines that have come out of the Emco works which have enhanced the Home Machinists lot quite considerably, I can forgive them one or two oversights.

We are not really in a position to know what the designers criteria was at the time. Some of the things were probably done to ease production / assembly. Plus there may have been a maximum unit price to work to.

Regards

Gray,

Above is a view of the mods done to the rotary table Worm shaft to eliminate backlash, or the spring effects of the Emco standard set-up shown below, and mentioned above. Thirty years of wear can just be made out on the end face of the slotted distance piece.

The slotted Grub screw for adjusting Worm to Worm wheel engagement can be seen at the bottom of the M8 hold down slot. This needs to be removed from the tapped hole if ever the eccentric sleeve needs to be removed completely.

Also in the shot is the O-Ring in the Sector Arms used to provide the friction that the original Emco Bellvue washer was providing to make the Sector Arms stay put during Indexing moves.

On the Table of the RT is a view of the other side of the slotted distance piece.

As promised earlier here is a photograph of the Adjustable X-Axis Cursor holders. The Original one was obscured by the machine vice when in use. In all fairness to Emco this is I think due to the fixed jaw of the vice being parallel to the X-Axis movement. I have noticed the fixed jaw is often shown at 90 degrees to the X-Axis on the Continent. With the vice in this position it does not obscure the cursor.

The reason for the two cursors is for visibility down each side of the vice. When one is covered the other is always exposed. When using the RT the Rt Hand cursor is removable so that the Lt Hand cursor can be transferred to the Rt Hand station. The Indexing plate of the RT fouls the cursor in the Rt Hand station and from memory It can mark the original Emco cursor set-up.

More little Quirks to follow,

Regards

Gray,

Edited By Graham Meek on 02/08/2020 16:08:00

One other thing relating to the Rotary Table, which I posted under my "Emco FB2 Earning its keep" post, last year, but something some of those following this post may not have seen. This is an extension handle for the Worm drive handle.

As can be seen from the first photograph the extension makes turning the worm drive handle much easier when the job or workpiece is overhanging the table. Note the 6 mm dowel locating the radius centre from the Location Plug.

Regards

Gray,

I have been asked over the years about my way of working. That is do I mark-out components then centre popping and drilling any holes from this. For me, this is going the long way around, but I will readily admit some jobs do not warrant my way of working, or are just too big or complicated to mount on the mill.

All my work is done by co-ordinate location, the fixed vice jaw of the machine vice being set to Zero for the Y-axis. The Vice End Stop being the X-axis Zero. This way of working has other benefits when milling a component. Knowing the size of the cutter being used I can mill any up-stand or step to size without reference to my Vernier, simply by using my dials and scales on the machine.

Locating the fixed jaw face is done with the following little item I made many years ago from an mild steel off-cut.

The curved rear face of the bar stock ensures the flat face is up against the fixed jaw. A tipping moving jaw combined with a rectangular block could give a false reading. Due to the tipping moving jaw making the rectangular block cant over to towards the moving jaw.

Three for the price of one here, first the edgefinder set-up, the edge-finder is again home made.

Secondly the two holes in the moving vice jaw are M5 tapped holes. A Delrin plug and M5 grubscrew lock the moving jaw slide adjustment screws. The moving jaw adjustment lasts a lot longer with this modification.

Thirdly is my vice stop for locating similar components in the vice with reference to the X-axis. To locate longer components I have an extender stud which screws into the same location and the stop screws into this in the same way as it does the vice.

Under the head of the M6 hex-headed bolt is a Disc spring washer which allows the stop to be un-clamped and adjusted without fear of the stop dropping due to gravity, while I locate the M6 spanner. The disc spring also keeps swarf out from the interfaces by keeping them in contact. The 3 mm diameter silver steel rod is housed in a split bush which is retained in the stop by a circlip. The fit is extremely good and the head of the split bush is on the thrust side of the stop. The locking screw is an M4 capscrew which means the same 3 mm Allen key used to adjust the machines Quill depth stop can be used to lock the vice stop. One less item to have to locate, (had I used an M4 grubscrew this would need a 2 mm key).

Regards

Gray,