Talk:Ian M's Lathe Notes: Difference between revisions

From richmondmakerlabs.uk
Jump to navigation Jump to search
IanM (talk | contribs)
 
IanM (talk | contribs)
Line 1: Line 1:
[[User:IanM|IanM]] ([[User talk:IanM|talk]]) 07:59, 1 June 2023 (UTC) Comments, corrections and feedback from other RML lathe users and/or experienced machinists are welcome.
[[User:IanM|IanM]] ([[User talk:IanM|talk]]) 07:59, 1 June 2023 (UTC) Comments, corrections and feedback from other RML lathe users and/or experienced machinists are welcome.
== Speed control ==
The negative side of the SCR controlled bridge uses  MUR1660 dual common cathode diodes, which are currently blown due to swarf ingress.  No other damage occurred.
Need 2+ new diodes + fresh TO220 sil-pads.
https://services.ts.com.tw/storage/resources/datasheet/MUR1620CT%20SERIES_I2104.pdf


== Notes for spindle roller bearing upgrade ==
== Notes for spindle roller bearing upgrade ==

Revision as of 00:45, 27 March 2024

IanM (talk) 07:59, 1 June 2023 (UTC) Comments, corrections and feedback from other RML lathe users and/or experienced machinists are welcome.

Speed control

The negative side of the SCR controlled bridge uses MUR1660 dual common cathode diodes, which are currently blown due to swarf ingress. No other damage occurred. Need 2+ new diodes + fresh TO220 sil-pads.

https://services.ts.com.tw/storage/resources/datasheet/MUR1620CT%20SERIES_I2104.pdf

Notes for spindle roller bearing upgrade

When we get around to this, it would be worth replacing the two rear socket headed cap screws holding the headstock to the bed with hex headed machine screws, so future headstock maintenance can be performed without removing the motor.

IanM (talk) 09:10, 17 October 2023 (UTC)

Concept for a boring bar holder

We need the capability to use small boring bars <10mm shank. The main problem at small sizes is rigidity, so it is probably desirable to avoid the QC toolholder. The 4 way toolpost can clamp 16mm but the slot base is 10.4 mm below center height, leaving only 5.6mm above, not enough for a 10mm toolholder.

Raising the whole toolpost 2.5mm (ideally 2.4mm) would be a game-changer, giving 7.9mm below and 8.1mm above center height allowing a block clamped directly in the toolpost to be bored for up to 1/2" (12.5mm) shank tooling. After boring, slit one side of the block for clamping, so it flexes when the toolpost clamping screws are tightened, clamping the round tool shank. Littlemachineshop.com (USA) sell a 1/2" boring bar holder of this style but it would be uneconomic to import.

To bore it, first drill slightly under diameter with the drill bit in the 3 jaw chuck, then use the 4 jaw chuck to hold a boring bar with the desired offset.

2.5mm Aluminium sheet is probably the best choice to raise the toolpost - cut 50mm square ?? and drilled for the center stud. The boring bar holder is probably best made of 16mm aluminium square bar.

Update: Bought a set of 9 3/8" shank boring bars. The shanks are 9.45mm and tip heights are around 2.4mm above center with some outliers +/- 0.2 mm. Therefore after boring the holder block 9.5mm (test drill an ally offcut 9.5mm and see how close to shank size it is, but I bet it will need boring), with the 2.5mm shim under the toolpost, remove the shim, and touch up the tips to correct relief and rake with the bar rotate to bring the point to a thou or so above center. Worst case I may need to file the top of the holder block to allow it to be shimmed up a few thou.

IanM (talk) 16:11, 29 July 2023 (UTC)

Lathe dog and drive pin

Needed for turning between centers. See https://littlemachineshop.com/products/product_view.php?ProductID=4464 for the general style I propose.

Scaling from the photos, the M8 drive pin is 60mm long, threaded for half its length. The quick & dirty option here is cut down a M8 x70mm or x80mm hex headed bolt and round its end.

The smallest (10mm capacity) dog has a 41.5 mm x 7 mm tail, and a M5 screw. The 20mm capacity dog has a 32.5 mm x 11 mm tail and a M8 screw. 30mm is similar but with a 35mm tail. I have an offcut of 25mm bore heavy pipe, that should be suitable for stock in the range 15mm to 25mm.

A Counterbalance weight is commonly fitted to the spindle nose hole opposite the drive pin. ToDo: calculate balance weight

IanM (talk) 03:59, 31 July 2023 (UTC)

Fine Feed

A 3D printed set of cojoined 80/15 tooth (for the BC shaft) and 90 tooth gears can increase the reduction ration from the standard 16:1 to 24:1 giving a 0.0625 mm fine feed. Although they can be bought from LittleMachineShop: https://littlemachineshop.com/products/product_view.php?ProductID=1137 I think we can print them ourselves in ABS and am working on OpenSCAD models for them. The C-D reduction can possibly be improved with a 14T pinion driving a 91T gear on D, which gives 26:1 and 0.0577 mm feed. IanM (talk) 12:19, 17 October 2023 (UTC)

Other desirable mods

Can we do this better? Possibly a V groove in an actuator pin through a block to lift a ball bearing in a cross hole in the block to push a strong spring round the half-nut lever base off a catch pin. Engaging the half-nuts cocks the spring, which is then held with no force on the lever till it trips.
N.B. GadgetBuilder had a crash due to the half-nuts failing to disengage under load. It may need a backup electrical trip via a heavy duty relay to interrupt power to the ZVR stop/start switch, or maybe retrofit a 5 pin ZVR switch so the electrical trip only has to interrupt the coil current. It may also be possible to use the motor controller's low current inhibit circuit, though for safety, it would need to latch till the speed knob inhibit switch closes or power is cycled.
On further consideration, an electromechanical trip may be preferable to the mechanical one, triggering a 'brute force' solenoid to disengage the half nuts, as continued over-travel if the trip fails could then stop the motor. IanM (talk) 12:09, 17 October 2023 (UTC)
Set for the 3 jaw chuck completed 10/10/2023.
ToDo: Make a set for the 4 jaw chuck.

Spares/Accessories for consideration

Arceurotrade https://www.arceurotrade.co.uk/Catalogue/Machine-Spares/C2-Mini-Lathe-Spares/C2-180A-Potentiometer-with-Switch - Right value and switch type, but has splined 6mm shaft. £10.64 https://www.arceurotrade.co.uk/Catalogue/Machine-Spares/C3-Mini-Lathe-Spares/C3-256-Leadscrew-Grommet-Dustproof-Cover - Leadscrew shaped grommet to exclude swarf, £3.35

The drive belt is a modulus timing belt, 1.5x70 That's 1.5*PI (~4.712 mm) pitch, 70 tooth, so approx 329.8 mm long. According to Amadeal its nom. 9.8 mm wide, but the motor pully endcap has been shimmed to allow a slightly wider belt and a standard 10 mm one will fit.

Old: Grinding spindle nose to fix 3 jaw chuck seating

I made a proposal to resolve the chuck seating issue (Telegram message to Ian B):

On further thinking about the misfitting three jaw chuck, neither the four jaw chuck nor the faceplate require that precise alignment, as one always adjusts the work held by/on them to run true, so a tiny increase in their runout when mounted will be insignificant.

As a replacement spindle is only £52 but a replacement 4" three jaw chuck is £120, the lowest risk cure for our excessively tight fitting chuck would be to turn down the register (outer) diameter of the lip (inner ring) of the spindle nose till the three jaw chuck just fits cleanly.

As there's very little to be taken off, setting up a Dremel in a 3D printed adapter for toolpost grinding is probably the best approach.

Ian B concurred:

I'm in full agreement with your suggestion, to grind the lip of the spindle.

Changing chucks should be easily done and having to whack the three jaw chuck to remove it can't be good for a lightweight lathe like ours.

And you're saying the grinding bit of a Dremel will be adequate for the spindle? Perfect.

TLDR: We have fixed it!